Edition 2/2021
Tecan Journal Life Sciences, Diagnostics and Partnering
Increasing the amplitude of global COVID-19 testing
A sure BET for workflow automation
Computational biomedicine at the forefront of epigenomics
Robotic biology for the lab of the future
Pages 8-9
Pages 18-19
Pages 26-27
Pages 30-31
CEO WELCOME
Changing perspectives in a global market The COVID-19 pandemic has highlighted some of the weaknesses in current biosurveillance and diagnostics, as well as drug and vaccine development strategies, but has also demonstrated the incredibly rapid progress that can be made when the life sciences community pulls together for a single cause. This type of coordinated effort only really seems to be feasible in times of global crisis, but serves as an inspiring demonstration of what can be achieved through focused collaboration, and we’re proud to have played our part here at Tecan. Fortunately, many of the lessons learned during the pandemic can be applied to dealing with future outbreaks, or even to completely different areas of life sciences and medicine. One of the clear messages from this crisis has been the need for research, diagnostics and production laboratories to become more adaptable to sudden changes in their workflows and throughput. Providing labs and hospitals with this flexibility is one of our core strengths, and this is further boosted by the design and manufacturing capabilities of the latest addition to the Tecan family – Paramit Corporation. Over 30 years, Paramit has built a strong reputation as a leading CDMO in the medical devices and life sciences sectors, with an impressive track record in handheld and point-of-care devices, as well as benchtop instruments and cart-based robotic surgery and patient monitoring systems. This acquisition will further extend Tecan’s capabilities in life sciences and in vitro diagnostics, as well as opening up the market for medical mechatronics. Driving scalable innovation from research to the clinic is a common strength and focus for Paramit and Tecan, and our joint future will be further boosted by Paramit’s R&D facilities in Boston and Silicon Valley, and advanced production centers in both North America and Malaysia. We’ll be sharing more about how this new member of the Tecan family will help us to expand our capabilities in the near future but, for now, I hope you enjoy this issue of the Tecan Journal, Achim von Leoprechting CEO
2
TECAN JOURNAL 2/2021
CONTENTS
Contents 2
Welcome
4 - 7 Genomics research beyond COVID-19:
embracing the new normal
8 - 9
I ncreasing the amplitude of global
COVID-19 testing
10 - 11
B olstering the assay arsenal to investigate COVID-19
14 - 15 Drug repurposing for the battle
12 - 13
Innovation in COVID-19 testing by Dutch
against COVID-19
public-private partnership
14 - 15 Drug repurposing for the battle against COVID-19
16 - 17
Easing the burden of flow cytometry
sample preparation
18 - 19 A sure BET for workflow automation 20 - 21
Taking the guesswork out of diagnostics
22 - 23 Don’t miss a beat with live cell imaging 18 - 19 A sure BET for workflow automation
24 - 25 Fluorescence imaging shines a light on
systems biology
26 - 27 Computational biomedicine at the forefront of epigenomics
28 - 29 Fighting neglected and
non-communicable diseases
30 - 31 Robotic biology for the lab of the future
Applications and platforms presented in the Tecan Journal may not be available in all markets. Please consult your local Tecan office for information.
TECAN JOURNAL 2/2021
3
COVID-19 COVID-19
Genomics research beyond COVID-19: embracing the new normal In the ‘new normal’ post-COVID-19 world, how can genomics labs be better prepared to respond quickly to the unexpected? How can they deliver reliable and insightful genetic sequencing results faster and more efficiently? What is the best way to scale up operations without being limited by benchtop tasks? In this article, Tecan talks to Dr Davide Scaglione, CTO of innovative NGS service provider IGATech, to get his perspective on how to embrace the new normal and put the latest genomics technologies to work to improve the health of humans, animals and the planet. Genetic sequence information is key to
application focuses are genotyping
service than they could get with a
cracking many of the world’s most
systems, de novo assembly techniques,
typical NGS service provider.
pressing problems. As Italy’s leading
and integration of customized
NGS service provider, IGATech has a
protocols with analytical pipelines.
growing reputation as an innovator in
Our company’s vision is to support our customers beyond simply providing
strategies for genotyping and advanced
What was the driving force behind the
sequencing capabilities. We take the
genomic research. The company has
creation of IGATech?
time to explore and understand their
sequenced the DNA of more than 250
Our company has its roots in the
final goals, select the best
types of organisms, and applied its expertise across diverse areas such as tracing food origin and safety, increasing the efficiency of plant and animal breeding, improving diagnostics and routine clinical care, and supporting sustainable development. Who better then to comment on the challenges of thriving in today’s demanding research environment? Davide Scaglione is Chief Technology Innovation Officer at IGATech. He is in charge of the development of new sequencing-based applications, bioinformatics operations and coordinating business activities. After a PhD in plant genetics at the University of Turin in collaboration with the University of Georgia, he spent a one-year postdoc at the Genome Center in Davis (California). He also worked as Head of Innovative Analytical Development at Merck KGaA, and has authored several scientific publications, mainly in plant genomics and bioinformatics. His major
The Blog 4
Institute of Applied Genomics (IGA) in Udine, which initially became renowned for its work in plant genetics, and has grown into a leading center of excellence for structural and functional genomics in living organisms. In 2009, the IGA established IGATech as an NGS service company, equipping it with the latest Illumina and third-generation sequencing platforms. Today, we are the number one provider of genomic research services in Italy. Our mission is to support academic and industrial research to help apply the power of genomics to address important
methodologies and bioinformatics strategies for their project, and help them implement solutions that will deliver robust answers to their questions. The added value is that the customer comes to us, explains what they want to achieve, and then they can trust us to provide the best solution for them. We are not trying to give them a one-size-fits-all paradigm. This really differentiates us from NGS service providers who take a more commoditized approach. Tell us more about the types of
biological questions, using whatever
solutions and services you provide.
organisms are most appropriate.
These can essentially be grouped into three main areas. The first is our core
How are you helping your customers
genomics research service, where we
solve today’s big challenges in
apply state-of-the-art sequencing and
genomics research?
bioinformatics methods to explore
Questions in genomics are, by nature,
genomic structure and function in
very complex, and it often takes a tailored approach to ensure robust and meaningful results. That means many of our customers need a more dedicated
many different contexts, from soil metagenomics to the transcriptomics or epigenetics of space-flight specimens. The second key focus is agri-genomics, where we apply
TRENDS, NEWS, STORIES AND MUCH MORE! FROM THE EXPERTS TO YOU.
TECAN JOURNAL 2/2021
COVID-19
custom-tailored genotyping-bysequencing techniques – often coupled with de novo assembly of genomes – to help researchers and food producers understand the molecular basis of traits that are important for commercialization
lexibility is key, because each new project F can be very different from the last in terms of the strategies and protocols involved.
or preservation of species. The third, and most recent, area is the characterization of genetically-engineered cell lines for the production of biologics or for application in regenerative medicines. As an NGS service provider, what are some of the challenges you and your customers face in today’s evolving research environment? Shifting our focus from a commoditized to customized approach means that we have a greater heterogeneity of applications than many of our competitors. This means we are always developing new protocols to offer the best service to our customers. It’s not just a case of continuous improvement, but also of continuously reshaping our procedures, which is time consuming. Flexibility is key, because each new project can be very different from the last in terms of the strategies and protocols involved. As the pandemic has shown us, in our crowded and highly mobile world, new and serious threats can arise unexpectedly, which means we and our customers need to be prepared to adapt and respond at short notice. Customized NGS services are going to be in increasing demand as these global pressures continue to escalate and the questions we ask get more complex. As our customers potentially feel the bite of tighter budgets,
www.tecan.com/blog TECAN JOURNAL 2/2021
5
COVID-19
workforce limitations and time pressures,
and increase reproducibility, minimizing
What do you see next on the horizon
they will also need this type of dedicated
batch effects in large studies. This
when it comes to automation?
support to deliver on their commitments.
brings added value to our customers,
Fortunately, full integration and
and that is absolutely key for us. What steps are IGATech taking to meet these challenges?
You mentioned having DNA
To satisfy the growing demand and stay
quantification and normalization
competitive, we know that we will need
integrated into automated workflows
automation of the entire NGS workflow is now available for the first time with the DreamPrep™ NGS workstation. The number of applications and compatibility with commercial kit
to standardize procedures wherever
for NGS – why is that so crucial?
possible, and automation can really help
Good question. We are currently
growing. Looking to the future, it will be
here. For example, much of the NGS
running a lot of applications based on
important to anticipate where the high
sample preparation process can be
Tecan’s Allegro® Targeted Genotyping
volume analysis will be, so we can
completely automated – not only library
system and standard genotyping-by-
extend this completely hands-off
preparation, but also DNA extraction,
sequencing methods. Both methods
approach to those areas. For example,
quantification and normalization.
involve pooling materials, which means
long read sequencing is becoming more
that accurate quantification and
mainstream, so there will likely be a lot
Ideally, with the right automation
normalization are critical to the quality
of research that needs to be repeated
platform in place, we would be able to
of the results.
from scratch. At some point, the
take in any type of raw material – such
protocols is already extensive and
increase in volumes may justify having a
as plant leaves, blood or tissue – and
The problem is that these procedures
complete automation solution for that
implement protocols to allow nucleic
are labor intensive and time consuming,
workflow. Similarly, single cell
acid extraction and preparation of high
so we can spend up to half the time just
sequencing is another trend that could
quality libraries without disrupting
for quality control and normalizing large
lead to a lot of research that was done
operations in the lab. This would not
batches of samples. That means we’re
with RNA-Seq being repeated at the
only increase productivity, but also fit
spending half the time on relatively
single cell level. We are also
with our customer-oriented strategy,
trivial tasks, which are nevertheless key
collaborating with industry for
because it would enable us to offer our
to avoiding experimental failure. Having
production-oriented implementation of
customers a more complete solution.
this part of the process hands-off and
NGS. Our perception is that, while NGS
They just provide the raw material, and
completely automated is therefore the
has continued to rapidly evolve and
we return the insights.
right way to go for us. Not only could
release fascinating methods and insights
automation cut the total time almost in
year after year, effective application of
Our plan is to implement our most
half, but it would also take a lot of error
NGS in more niche contexts still
common preparation applications – such
out of the process.
demands a higher degree of
as those for RNA-Seq, DNA-Seq, and
reproducibility. Automation is one of
maybe also one day Meta-Seq – on a
the first steps to make NGS a more
fully automated, walkaway platform that
appealing asset to industry, and close
is designed specifically for the types of
collaboration between genomics
challenges we are facing. This will allow
technology innovators and Tecan is sure
us to scale up the volume of our most
to lead to exciting new developments.
common applications, without overwhelming benchtop operations. This will also free up expert staff to focus on
For Research Use Only. Not for use in diagnostic procedures.
the communication with clients, experimental design and data review
To find out more about how
that are our main value propositions.
Tecan solutions are supporting
Perhaps most importantly, having a fully fledged automation system should improve the integrity of the whole process, because it would make the process more resilient to human errors
The Blog 6
TRENDS, NEWS, STORIES AND MUCH MORE! FROM THE EXPERTS TO YOU.
TECAN JOURNAL 2/2021
innovators like IGATech to push the boundaries of genomic research, visit www.tecan.com/ngs
COVID-19
www.tecan.com/blog TECAN JOURNAL 2/2021
7
COVID-19
Increasing the amplitude of global COVID-19 testing The scale of the challenge for clinical diagnostics labs around the world quickly became apparent when the SARS-CoV-2 pandemic hit in 2020. Assays to identify the virus were rapidly developed to isolate patients and monitor the spread of the virus but, with shortages of reagents and labware, and the sheer number of samples expected, scaled-up testing was desperately needed. Thermo Fisher Scientific supplies labs with the qPCR equipment that was central to testing, but wanted to do more to support the global efforts, and so set about developing a solution for high throughput screening.
The Genetic Sciences Division of
have tremendous knowledge and
instrument processes each sample and
Thermo Fisher Scientific provides an
experience within the company, and I
dispenses it into four, barcoded 96-well
industry-leading portfolio of research
first turned to colleagues from the
deep well plates in a state where there is
products for genetic testing and, prior
Sample Preparation and Analytical
no longer any live virus. These plates are
to the COVID-19 pandemic, focused on
Instrumentation groups – who already
then transferred to the second Fluent
supporting scientists working in
had experience of automated
780, which can be housed in a standard
academic, pharmaceutical and
instruments and cooperative robots –
lab, and combines samples into a single
agricultural research. qPCR was a
to see what we could build internally. It
384-well plate for RNA extraction, qPCR
central pillar of the team’s capabilities
soon became apparent that we would
and analysis. A single LIMS system
and, with the technique becoming
need outside partners for certain
connects both stages, and stores all the
recognized as the gold standard for
elements of the project.”
sample tracking information from the
SARS-CoV-2 identification, the division
barcoded plates. The system gives labs
was called upon to support clinical
Elliot added: “We looked at a few
a full workflow capacity of 8,000
testing efforts. The first development
different liquid handling options and
samples a day.”
was the TaqPath™ COVID-19 Combo Kit
Tecan consistently came out top on our
– for labs to screen for the virus on their
list of requirements. Despite the
Developing intuitive software was a key
existing qPCR machines – and this
restrictions of the pandemic, the
part of the challenge, to ensure that
quickly gained Emergency Use
company could meet our needs for
users could easily manage the workflow.
Authorization (EUA) from the FDA.
supply and continuity for a large number
Robert explained: “Our colleagues from
However, customers were asking for
of instruments and, in particular, tips and
the Analytical Instrumentation group
more scale and the option to move from
plastics, which was a big issue at the
had previously programmed APIs to
testing hundreds of samples a day, to
time. However, most importantly, Tecan
interact with Tecan liquid handling
thousands. Elliot Shelton, General
was the only company to approach us
platforms and so our proprietary
Manager, and Robert Balog, Director of
with a true spirit of partnership that
Momentum™ software was already
R&D, of the division were enlisted to
would help us meet the challenges we
compatible with Fluent scripts. We then
produce a high throughput testing
were facing. It quickly rose up the ranks
worked with the Tecan team to develop
platform to meet this demand, and the
as our clear partner of choice.”
custom scripts and, where possible,
Amplitude™ Solution was born.
integrated Introspect™ software into the Robert continued: “Many of our
systems, depending on the customers’
Robert explained: “It was mid-April
customers had told us that they didn’t
IT set-ups and firewalls. The software
2020, and I was walking the dogs with
have large enough biosafety level 2
has been able to give us valuable
my family when I was contacted by the
(BSL-2) areas to house the complete
insights into how the systems are
president of the division about a
workflow, and so we designed the
working, and the data coming back to
completely new project for the
Amplitude Solution so that it could be
us from the field has been really helpful
company, a high throughput automated
adopted by labs of different sizes and
to find high priority issues and start to
solution that could carry out 10,000
layouts. For that reason, it is based on
quickly address any errors.”
COVID-19 tests a day. We had the EUA
two Fluent® Automation Workstations
for the TaqPath in manual mode as a
– both with Tecan Cavro liquid handling
The first installations of the Amplitude
starting point, and wanted to change as
pumps – set up as two distinct
Solution started in September 2020 and
little as possible when automating it so
platforms. A Fluent 1080 workstation
the customer response to the system
that we could get fast approval. We
handles live virus in a BSL-2 lab; the
has been overwhelming.
8
TECAN JOURNAL 2/2021
COVID-19
ost importantly, Tecan was the only M company to approach us with a true spirit of partnership that would help us meet the challenges we were facing.
Elliot continued: “We went into this not really knowing what the market adoption was going to be, we just saw an unmet need. It was great to see how quickly this system was adopted, and especially how fast we were able to fulfill orders and schedule installations. This was another area where it was fantastic to have Tecan as our partner because, with such unprecedented demand, it was important to be able to coordinate enough field support to successfully install and train users on these machines. Tecan’s global presence enabled us to quickly complete installations in all corners of the world.” Elliot concluded: “A year and a half ago, this group was less than 100 people, now we are more than 1,000. Rapid scaling and the collaboration with Tecan has allowed us to support our customers and try to make a difference in combating the pandemic. Moving forward, the intention is to
To find out more about Tecan’s
continue to build our presence in this
Fluent Automation Workstations,
space, and leverage the competencies and infrastructure that we’ve built as a result of COVID-19. We plan to continue developing and deploying new assays to tackle new disease areas, and really fulfill the promise to our customers that the system isn’t
visit lifesciences.tecan.com/fluent To learn more about Thermo Fisher Scientific’s Amplitude Solution, go to www.thermofisher.com/amplitude
just a one-application purchase.”
TECAN JOURNAL 2/2021
9
COVID-19
Bolstering the assay arsenal to investigate COVID-19 The COVID-19 pandemic has
PTP Science Park is a business
on multiple fronts. Stefano di Giovine,
highlighted the importance of
consortium that operates in a wide
COO of PTP Science Park, explained:
range of sectors, including agri-food,
“At the beginning of the COVID-19
life sciences and bioeconomics. The
pandemic in March 2020, PTP Science
company’s position at the forefront of
Park already had the facilities and the
scientific research allowed it to ramp
ability to analyze the virus. We started
the pandemic, the laboratories
up its diagnostic and research
with a small number of samples but,
at PTP Science Park in Lodi,
capabilities in response to the
thanks to Tecan’s state-of-the-art
Italy, quickly enhanced their
COVID-19 pandemic. The science hub
automation solutions – such as the
is still engaged in various projects, but
Freedom EVO® workstation – we
its extensive research facilities, staff
already had the capacity to evaluate
and resources have been focused
up to 2,000 samples per day. More
towards the battle against COVID-19
recently, in March this year, we started
biosurveillance to understand, control and limit the spread of human diseases. In response to
set-up, introducing various assays to gain a deeper understanding of the virus. Researchers now not only diagnose COVID-19, but also measure anti-SARS-CoV-2 antibody levels after infection and vaccination to learn about the pathogenesis of the disease and how our immune systems respond to infection.
Laboratory automation has been essential to scale up testing at PTP Science Park 10
TECAN JOURNAL 2/2021
COVID-19
ecan’s instruments and assay kits have T allowed us to act swiftly in response to the pandemic and really make an impact.
a drive-in facility to enable us to take in even more samples. To date, we have processed about 160,000 samples, and are the primary laboratory in the Lodi area – supporting care homes and hospitals.” Located within PTP Science Park is the SMeL laboratory, which was added to the regional crisis unit in response to the pandemic. It is authorized to operate as a specialized medical laboratory, and carries out various tests using a biosurveillance toolkit that includes qPCR for diagnostic testing of oropharyngeal swabs, and quantitative serological assays for SARS-CoV-2 IgG, IgM and IgA antibodies, to evaluate the immune response post-infection or post-vaccination.
The Thunderbolt® analyzer provides fully automated, benchtop ELISA testing
immunizing antibodies. We expect a Stefano continued: “Our activity with
real boom in testing requests in the
SARS-CoV-2 is not limited to
coming months with all of the clinical
diagnostics. We are one of the few
studies underway.”
laboratories in the region authorized to sequence and report new variants,
“The scope of our research continues
partly thanks to Tecan’s assays and the
to expand as the pandemic progresses.
DreamPrep™ NAP workstation. We
Recently we started a small, local
also have a program funded by the
research project to evaluate the levels
Lombardy Region and the Cariplo
of IgG antibodies against the virus
Foundation called ‘COVID in pets’, to
before and after vaccination. Again,
investigate whether animals can catch
using Tecan’s SARS-CoV-2 S1/RBD
and transmit the virus.”
IgG Ab ELISA we can accurately gather this data and find variations
“The demand for serological testing to
in peak antibody levels following
check for antibodies in response to the
vaccination.”
vaccine has increased dramatically. Using Tecan’s SARS-CoV-2 S1/RBD IgG
“Tecan’s instruments and assay kits
To find out more about Tecan’s
Ab ELISA, we can detect antibodies
have allowed us to act swiftly in
SARS-CoV-2 S1/RBD IgG Ab ELISA
against the virus spike protein’s
response to the pandemic and really
kits, visit
receptor binding domain, which allows
make an impact, especially in the
us to examine variations in the immune
region. Ongoing viral surveillance with
www.tecan.com/interrogate-
response to the virus. For example, we
PCR testing and ELISA kits will help us
have found that some people gain
discover new variants and continue
immunity after contracting COVID-19,
building our knowledge on how our
while others have been infected up to
immune systems respond to infection,”
three times as they fail to generate
concluded Stefano.
covid-19-with-tecan-sars-cov-2igg-elisa To learn more about PTP Science Park, go to www.ptp.it
TECAN JOURNAL 2/2021
11
COVID-19
Innovation in COVID-19 testing by Dutch publicprivate partnership When the SARS-CoV-2 pandemic hit in 2020, researchers from the Hubrecht Institute in Utrecht, Netherlands, felt compelled to support the national COVID-19 testing strategy, which was suffering with limited capacity. Recognizing that the gold standard PCR test worked well to identify SARS-CoV-2 positive patients, the institute’s challenges lay in the logistics and a need to automate the process. A fortuitous introduction to an automation expert from Genmab was the start of a successful collaboration, which grew to involve a number of additional partners, and has significantly increased the capacity of SARS-CoV-2 testing in the Netherlands through the development of the STRIP-1 robot. Day-to-day, scientists at the Hubrecht
intensive manual process, together with
Institute are focused on pioneering
the requirement for large volumes of
research in developmental and stem
liquid reagents – which were suffering
cell biology. However, during the first
global shortages at the time – were
COVID-19 lockdown in the Netherlands
limiting the number of tests that could
in March 2020, two group leaders from
be processed. We initially investigated
the Institute – Wouter de Laat and
potential alternatives to standard qPCR
Marvin Tanenbaum – set about using
testing, but quickly realized the assay
their molecular biology expertise to
itself was very sensitive, and the biggest
support the national SARS-CoV-2
challenge was the logistics of carrying
testing strategy. Wouter explained: “An
out the tests.” Identifying the need to automate the workflow, a chance meeting in a local park led the Hubrecht scientists to be introduced to Martijn Bosch, an automation expert from Genmab – a biotechnology company coincidentally situated opposite the Hubrecht Institute on the Utrecht Science Park. Wouter continued: “The Hubrecht and Genmab are very different organizations and, although we are across the street, we don’t normally interact. However, in this unusual circumstance, it quickly became clear that we had the exact same attitude – we wanted to do something useful, and we had the complementary skills to try and make a difference.” Martijn added: “As an antibody company we do a lot of very high throughput screening, and so I knew that there
The Hubrecht Institute’s location on the Utrecht Science Park proved essential to collaborative efforts
12
TECAN JOURNAL 2/2021
should be potential to apply a similar set-up to COVID-19 screening, with the
COVID-19
possibility of being able to process tens of thousands of samples a day.” Martijn set about designing the STRIP-1 – initially nicknamed ‘The Beast’ – and chose a Fluent® Automation Workstation. He explained: “I had worked with Tecan automated systems for about 15 years, and immediately knew they would be
he Fluent system allows the whole RNA T extraction process to be carried out in 384-well format, increasing the speed and reducing the quantity of reagents required.
able to produce the platform we needed, so I worked closely with a team at Tecan Labwerx™ to realize the
“The Fluent system allows the whole
It’s delivering results for COVID-19
system. We built it around a Fluent 1080
RNA extraction process to be carried
testing now, but can be repurposed for
with two LiCONiC incubators at either
out in 384-well format, increasing the
other large-scale testing. In addition,
side, but what made our system different
speed and reducing the quantity of
we will be prepared should we face a
to other Fluent workstations was that we
reagents required. Plates are then
future pandemic.”
used two Robotic Gripper Arms™. This
manually moved for qPCR analysis, and
allowed us to set up two different
the barcodes allow automatic digital
processes on one workdeck, increasing
return of the results to the right person.
the overall speed of the workflow. To
We worked with IT company Bodegro
make sure that the magnetic beads
to manage the sample tracking and
used for the RNA isolation step were
integrate the data management
kept in suspension, a V&P Scientific
throughout the process.”
SpinVessel® was introduced. We
To find out more about Tecan’s lab automation solutions for SARS-
ensured full traceability throughout the
Following this successful installation
process by using barcoded sample
and validation of the STRIP-1 platform
tubes and plates, which were scanned
at the PAMM medical diagnostics
using a Ziath DataPaq™ Mirage scanner
laboratory in Veldhoven in December
integrated into the system.”
2020, the team that collaborated to
For more information on Tecan
CoV-2 testing, visit www.tecan.com/covid19
bring it about were finally able to meet
Labwerx customized automation
“One of the big challenges we faced
in person when Hugo de Jonge, the
solutions, visit
was getting the samples from the
Dutch Minister of Health, Welfare and
www.tecan.com/labwerx
patients into the system. We worked
Sport, visited STRIP-1 at the PAMM
with Micronic – which supplied sample
laboratory in January 2021. The Dutch
tubes prefilled with a lysis buffer and
government has since ordered five
controls – so that any virus present was
more systems, with each platform
deactivated as soon as the patient swab
capable of processing more than
was collected, making the sample
10,000 samples in 24 hours. Martijn
handling safer for staff. We also built
finished: “Through this extraordinary
an IntelliXcap™ decapper into the
collaboration and the use of Tecan
system with a special adapter for the
laboratory automation platforms,
Micronic caps.”
we’ve produced a very flexible system.
To learn more about the Hubrecht Institute’s STRIP-1 platform, go to www.hubrecht.eu/strip-1-testrobot-for-covid-19-testing To find out more about Genmab, visit www.genmab.com
TECAN JOURNAL 2/2021
13
COVID-19
Drug repurposing for the battle against COVID-19 The race has been on since the start of the pandemic to develop vaccines and drugs to fight against the SARS-CoV-2 virus. Vaccine development has proven successful, with vaccine roll-out underway in many countries, but the need remains to identify drugs that can treat the disease for those who have not been vaccinated, or for those where the vaccine is not effective enough to prevent disease. Researchers at the Fraunhofer Institute for Translational Medicine and Pharmacology (ITMP) in Hamburg, Germany, have been using high throughput drug approaches to screen compound libraries for candidate antiviral drugs. The SARS-CoV-2 virus was identified,
have time to wait for these disease
rapidly analyzed in in vivo efficacy
isolated and sequenced within a short
mechanisms to be fully elucidated
studies, and ultimately clinical trials.
time of this novel pathogen emerging
before beginning screening for drugs
Philip explained: “In January 2020, our
into the community. However, at that
that could directly treat or alleviate the
collaborator – Professor Sandra Ciesek
time, the precise details of how the
symptoms in COVID-19 patients.
from the Institute for Medical Virology
viral infection affects tissues and
at University Hospital Frankfurt – had
organs, or how this contributes to the
Dr Philip Gribbon, Head of Innovation
access to some of the first clinical
development of disease, were not clear.
Area Drug Screening & Compound
isolates of the coronavirus in Europe,
This knowledge of infection and
Repurposing, and his colleagues at
and established an assay to screen
disease-related mechanisms is normally
Fraunhofer ITMP are experienced in
against the virus on a very short
critical to developing medicines,
carrying out screening assays to
timescale. Working closely with
allowing researchers to target key virus
identify compounds that can be
Professor Ciesek, we then began
replication, or virus-host interactome
repurposed. They understood that
screening Fraunhofer ITMP’s collection
associated pathways with small
screening known drugs and drug
of over 5,500 bioactive compounds,
molecule compounds or biologicals.
analogs against SARS-CoV-2 would
including 3,000 clinical stage drugs,
Unfortunately, the growing global
allow them to identify candidate
for their antiviral activity.”
crisis meant that researchers did not
compounds with the potential to be
The Fluent Automation Workstation in use in the laboratory at Fraunhofer ITMP 14
TECAN JOURNAL 2/2021
COVID-19
The workflow for the original assay was
characterize the effect of different
programs, especially since vaccines
a collaborative effort, as Philip
spike mutations on viral entry efficiency
are typically not 100 percent effective
described: “Our laboratory uses a
and profile compounds or biological-
at preventing the disease, and there is
Fluent® Automation Workstation to run
based inhibitors. Some of these assays
still the risk of new variants emerging
high throughput screening assays, as
are highly automated, so the Fluent has
that may evade vaccine protection.
this system offers the precision and
certainly proved adaptable to many
Drug repurposing efforts allow
flexibility that we need to run complex
different workflows.”
candidates to be quickly identified and
assays in a 96-well, or even 384-well,
taken into Phase II and III clinical
format. We wanted to capitalize on
efficacy trials, while potentially
these capabilities in the fight against the virus, and so we used the Fluent to plate out the compound libraries for the initial SARS-CoV-2 screen. At that point, we sent the plates to a biosafety level 3 (BSL-3) lab in Frankfurt for testing, as whole virus was used in the screening assay. This meant relatively complex plate logistics, due to the
This system offers the precision and flexibility that we need to run complex assays in a 96-well, or even 384-well, format.
limited degree of laboratory
reducing the need for the extensive Phase I safety testing normally necessary with novel compounds. Philip concluded: “The high throughput, flexible automation offered by the Fluent platform has supported this effort, and will continue to be invaluable in drug screening, not just for COVID-19, but for a host of diseases. The urgent need created by
automation in the BSL-3 environment
this pandemic has really identified new
but, within three months, we had
All of the data on COVID-19 generated
areas in which lab automation could
published the first results online,1 and
by this research has been made public
prove invaluable in the future.”
eventually uploaded the primary data
to support the global community in
to ChEMBL and the Image Data
combating the virus. Philip continued:
1. Ellinger, B. et al. A SARS-CoV-2
Repository databases to assist global
“We work closely with the teams in the
cytopathicity dataset generated by
research efforts.”
European Bioinformatics Institute and
high-content screening of a large drug
the ELIXIR Research Infrastructure, Since reporting these initial results,
who set up the EU’s COVID-19 data
Philip and his team have continued to
portal. We’ve tried to be as open as
develop new assays and partner with
possible about the data that we’ve
labs around the world to further our
been able to generate. For the cell-
understanding of the virus. Philip
based assays, we’ve reported the
added: “Our Fluent platform has been
activities in ChEMBL but, rather than
repurposing collection. Sci Data, 2021, 8,70.
working hard on COVID-19 screening
just giving a percentage effect or IC 50 ,
over the last year. We’re still using it to
we’ve uploaded the primary image
support compound plate logistics – for
data for the entire screen into a data
example, we recently shipped 10,000
repository. This means scientists on a
compounds to a collaborator to screen
global basis can reanalyze the data,
To find out more about Tecan’s
against the SARS-CoV-2 spike protein
and generate additional hypotheses or
– as well as using the system to run
insights. We’re also working with the
drug discovery solutions, visit
selectivity assays and target-based
European Open Science Cloud and the
screens against some of the main viral
European Commission to use the
entry and replication-associated
methodologies we’ve established for
targets. We are adapting the Fluent to
our datasets to help other groups to
perform screens using lentiviral
mobilize their data towards public
infection systems developed by our
resources.”
itmp.fraunhofer.de
Hamburg, which express the SARS-
Antivirals to treat COVID-19 will be an
To access the COVID-19 Data
CoV-2 spike protein on the surface of
important part of beating the disease.
Portal, visit covid19dataportal.org
lentiviral particles. This will allow us to
They serve to support vaccination
lifesciences.tecan.com/ drugdiscovery To learn more about Fraunhofer ITMP, go to
collaborators at the University Clinic in
TECAN JOURNAL 2/2021
15
FLOW CYTOMETRY
Easing the burden of flow cytometry sample preparation Flow cytometry (FCM) is a powerful analytical tool with applications spanning a variety of disciplines. Sample preparation prior to cytometry, however, is traditionally slow and prone to human error, which can drain precious time and resources from laboratories already under constant pressures. Sysmex has developed a unique automation solution to rapidly accelerate sample preparation for FCM applications – heightening efficiency and flexibility to ease the strain on laboratory professionals. Sysmex’s mission is to shape the
world. Over recent years, the company
for quality control testing of water and
advancement of healthcare by
has expanded its FCM capabilities in
beverages, and for research.
providing instruments, reagents and
response to customer demand,
software for in vitro testing of blood,
ensuring it continues to provide for the
As the clinical testing market
urine and other bodily fluids. The
needs of the hematology market. Its
expanded, Sysmex recognized that
company’s integrated R&D,
FCM portfolio now covers various
sample preparation was an obvious
manufacturing, sales and support
applications, including clinical testing for
bottleneck in the clinical FCM testing
network supplies products to more
leukemia, malignant lymphoma and HIV/
workflow, slowing the entire analytical
than 190 countries throughout the
AIDS, as well as providing instruments
process. Shogo Takatani, Vice President of FCM Business Development at Sysmex, explained: “Many of our clinical FCM customers were struggling with the burdensome process of sample preparation. Leukemia and lymphoma testing are especially arduous, as you need to add up to 100 types of monoclonal antibody reagents to multiple tubes. This is really time consuming and, because of the tedious nature of the work, there is a high chance of error, which can greatly impact the accuracy of results. Seeing the burden this was on our customers, we realized there was a need for greater automation in these steps, not only to increase throughput, but also to minimize manual labor and limit the chance of human error. This would then allow the highly skilled laboratory professionals to focus more on clinical data analysis and interpretation.” “Our FCM application specialists understood our customers’ pain points, but we needed a partner with the knowledge and experience to develop an appropriate automated solution. We approached Tecan and, using its Cavro® Omni Flex platform as a starting
PS-10 team members from Sysmex and Tecan pictured outside Tecan’s facility in San Jose, CA (NOTE: Photo taken prior to social distancing) 16
TECAN JOURNAL 2/2021
point, we developed an innovative sample preparation system, the PS-10,
FLOW CYTOMETRY
specifically for FCM. Some existing technologies were integrated directly into the new instrument, including the Cavro Omni Robot for general purpose pipetting, and the Cavro Centris Pump to provide the precise flow rate control needed in FCM preparation. These form the main operating components of the PS-10, with other modules from both Tecan and Sysmex completing the design.” “The new sample preparation system
(Left to right) Hiroyuki Koga, Masaki Shiba and Yoichi Nakamura from Sysmex in front of a prototype PS-10 instrument (NOTE: Photo taken prior to social distancing)
has proven the perfect solution to the labor-intensive FCM testing workflow. The PS-10 automates antibody cocktailing and sample preparation, which vastly increases throughput and cuts down the chance of human error, giving our customers more confidence in the results of their work. Using Tecan’s Freedom EVOware® software, the system simply produces a file to export, ready for FCM analysis, and
e contacted Tecan first because of its W proven experience in innovating liquid handling automation. The company’s long history and established reputation as an OEM partner further cemented the decision to collaborate.
stores all the information regarding reagents and procedures to ensure full traceability. The instrument can also
product development cycle between
be tailored to match specific
our head office in Kobe, Japan, Tecan’s
To find out more about the Cavro
laboratory needs, and is compatible
hardware team in California, USA, and
with antibody reagents from various
Omni Flex, visit
its software development team in
manufacturers.”
Mainz, Germany. This combined
partnering.tecan.com/omniflex
experience proved crucial to the
To find out more about Tecan
“We contacted Tecan first because of
success of the project. We set out to
its proven experience in innovating
help our customers to increase their
liquid handling automation. The
efficiency and get more consistent
company’s long history and
results by eliminating user variability.
established reputation as an OEM
That’s exactly what we’ve done with
partner further cemented the decision
the PS-10 and, since its launch in 2019,
To learn more about the Sysmex
to collaborate. Getting this instrument
many laboratories have chosen the
PS-10, go to https://us.sysmex-
from idea to market was a true global
instrument, which now plays an
flowcytometry.com/ps-10-
effort between our teams, involving
integral role in their FCM testing
sample-preparation-system
communication over the entire
workflows.”
Synergence™ OEM systems engineering, visit www.tecan.com/synergence
TECAN JOURNAL 2/2021
17
OEM SYSTEM DEVELOPMENT
A sure BET for workflow automation Bacterial endotoxin testing (BET) is an important quality control check for the pharmaceutical and biomedical industries, ensuring that injectable or intravenous drugs and implantable medical devices are safe to use. Lonza offers a wide range of reliable BET solutions for QC labs, including high throughput, automated systems for microplate-based endotoxin detection.
Endotoxins are large molecules found
Automation is the obvious solution to
in the outer membrane of Gram-
this challenge, and Lonza wanted to
negative bacteria, helping the bacteria
build on the success of its early PyroTec®
to survive in harsh environments. This
Platform – a Freedom EVO®-based
role in nature makes the presence of
system mainly used in the dialysis
endotoxins difficult to control in a
market – by creating a fully automated,
laboratory environment, as they are
integrated BET system specifically for
resistant to extreme conditions,
QC activities in the pharmaceutical and
including high heat and chemical
biomedical sectors. Ruth continued:
treatments. Unfortunately, when
“The PyroTec® PRO Automated Solution
present in ng/kg concentrations in
offers users the ability to move away
vivo, endotoxins can cause symptoms
from manual benchtop endotoxin
such as fever and pyrogenic shock,
detection protocols to a fully automated
making it essential that parenteral
workflow. It has been developed from
medicines – drugs using non-oral
the outset for mid-sized pharma and
means of administration – vaccines and
biotech companies around the world
implantable medical devices are
performing QC testing in GMP
routinely tested for the presence of
environments, where reliable
endotoxins during production. Ruth
technology and strong support are
Noé, a Senior Product Manager at
critical. Many of these customers are
Lonza, has been working in this area
already using manual, plate-based
for 20 years, and explained the
testing solutions, and might have
process: “Our partners test production
automated other processes in areas like
waters, raw materials, in-process
chemistry, so it’s a natural progression.”
samples and manufactured products to both meet the regulators’ requirements and to mitigate contamination risk in their processes. For pharmaceutical companies, around 60-70 percent of all BET is on production waters and, if any contamination is detected, it can impact the final product integrity, so testing needs to be both fast and highly reliable for corrective and preventative action to be taken in a timely manner.”
18
TECAN JOURNAL 2/2021
OEM SYSTEM DEVELOPMENT
e are very happy W with our ongoing relationship with Tecan. Moving forward, we have a clear product development roadmap for our BET portfolio.
The PyroTec® PRO System offers a fully automated endotoxin detection workflow (NOTE: Photo taken prior to social distancing)
Lonza’s goal for the PyroTec® PRO
worked with Tecan to develop a
WinKQCL® Software allows users to
System was to provide a user-friendly,
special firmware that takes the
save and manage the data on a central
fully integrated automated system to
temperature readings at a slightly
database, accessible to any authorized
help increase the productivity of BET
different time point than usual, to
individuals within the company – at any
for its customers. Ruth commented:
confirm testing is performed within
site – streamlining data management
“From our previous experience working
the specified temperature range. The
and giving our customers greater
with the Tecan Synergence™ team on
system also features an additional
flexibility.”
the original PyroTec® System, it was an
insulation plate to help minimize
obvious choice to use this partnership
temperature fluctuations.”
“We are very happy with our ongoing relationship with Tecan and are
when discussing the development of the PyroTec® PRO System, as it was
A lot of focus when developing the
constantly working with the Tecan
evolution rather than revolution. Tecan
PyroTec® PRO System was on the
team to keep our customers happy,
has extensive experience with liquid
software. Ruth explained: “Scripting
from the initial installation to making
handling and automation, and we have
the workstation’s movements in
sure that processes and documentation
the expertise in endotoxin testing, so
Freedom EVOware® was really just the
are updated and adhered to. Moving
putting the two together is great. We
first step, as our vision for this system
forward, we have a clear product
also take pride in the fact that both
was that customers could simply set up
development roadmap for our BET
companies have experience in the
their samples using a template within
portfolio with Tecan, including the
GMP-QC environment, where many
our WinKQCL® Endotoxin Detection &
possibility of future system iterations
other suppliers may not.”
Analysis Software, populate the deck,
based on new decks, platforms and
click go, walk away and come back to
readers,” concluded Ruth.
“The PyroTec® PRO System is based on
results later. However, about 30-40
a proven and reliable technology
percent of all tests are on sample
– Tecan’s Freedom EVO 150 workstation
matrices that require dilution or
– with both a Liquid Handling Arm™
additional diluents or additives – such
and a Robotic Manipulator Arm™ to
as magnesium chloride – to overcome
completely automate the liquid
assay interference before running.
handling processes. Crucially, the
Scripting for each individual sample in
system also features an integrated
Freedom EVOware simply wasn’t
Sunrise™ absorbance microplate reader
feasible so, with Tecan’s support, our
to allow walkaway measurement and
software developers created a Lonza
data acquisition. Endotoxin detection
patented dynamic scripting interface
To learn more about product
assays must be performed within a
that seamlessly integrated our
disclaimers and Lonza’s
specific temperature range to comply
market-leading WinKQCL® Endotoxin
automated endotoxin testing, visit
with pharmacopeial regulations, so
Detection & Analysis Software with the
www.lonza.com/endotoxin-
temperature management is critical for
system. Whether the data is from a
automation
the acceptance of the results. We
manual or automated process, the
To find out more about Tecan Synergence, go to www.tecan.com/synergence
TECAN JOURNAL 2/2021
19
METAGENOMICS
Taking the guesswork out of diagnostics Metagenomics is rapidly emerging as a promising method for disease diagnosis, but the need for manual processing is delaying turnaround times and limiting clinical uptake. Dr John Rossen, Head of Global Research & Development and Product Strategy for Europe at IDbyDNA Inc, discusses how the company has developed a test that can give detailed diagnostic reports on pathogens associated with respiratory infections and urinary tract infections, and how automation will speed the transition of this assay from research to routine testing in clinics.
Patients who present with an unknown
investigate all pathogens and host
detailed analysis of several key aspects
respiratory complaint are typically
responses at once. It enables
– such as antimicrobial resistance
given a single, conventional molecular
comprehensive analysis of all microbial
markers – and is more expensive than
test or bacterial culture test for a
and host genetic material – including
more targeted approaches.
suspected target organism, which is
bacteria, viruses and fungi – to help
decided by the physician. This leads to
identify pathogens that were
San Francisco Bay area-based
concerningly low diagnostic success
previously missed. Investigating the
company IDbyDNA has developed an
rates, with no causative pathogen
genomes of the entire microbiome also
innovative Precision Metagenomics
detected in 60 percent of pneumonia
provides insights into complex
approach to overcome the limitations
cases. Clinical shotgun metagenomics
coinfections, and helps to predict
of shotgun sequencing. This
offers an alternative strategy to
resistance or virulence phenotypes
sequencing strategy, combined with
diagnosing disease, by providing a
that can worsen disease outcomes.
advanced AI, is already being used for
broad, unbiased and culture-
However, shotgun sequencing also has
diagnosing respiratory and
independent technique that can
some drawbacks, as it does not allow
genitourinary infections, as well as to
Dr John Rossen (center) with members of the IDbyDNA team 20
TECAN JOURNAL 2/2021
METAGENOMICS
identify antimicrobial resistance
Dr Rossen continued: “We currently
an individual level, as undetected
markers, and the company is now
perform the wet lab work manually,
coinfections often worsen the disease
looking at automating its workflow to
which, as you can imagine, is not
progression. Precision Metagenomics
improve the throughput for clinical
particularly feasible for labs routinely
is the best unbiased and culture-free
samples. Dr John Rossen, Head of
performing high volume diagnostics,
method for the identification of a
Global Research and Development and
with hundreds of cases that they need
pathogen, and automation can make
Product Strategy for Europe at
to investigate. Although still much
assays commercially viable in clinics
IDbyDNA, discussed the role of
faster than conventional culture
for the future of disease diagnosis.
automation in turning newly developed
testing, performing sequencing
This is what IDbyDNA is aiming to
research use only assays into
processes manually can take a long
provide: precise insights for better
commercially viable diagnostic tests:
time, and it is very labor intensive,
health,” Dr Rossen concluded.
“Our company is bringing Precision
delaying the turnaround time for test
Metagenomics into the clinical space,
results and increasing the incidence of
initially focusing on respiratory and
errors. The next obvious step our
genitourinary infections. Some viral
customers are asking for is to
respiratory infections are already
automate the library preparation and
detected by molecular diagnostics –
enrichment process, to make Precision
mainly using real-time PCR – but we
Metagenomics a realistic alternative to
wanted to take this one step further,
real-time PCR for precise disease
using Precision Metagenomics to
diagnostics in clinics.”
detect all the known pathogens causing respiratory disease, instead of a single
“Automation of any molecular
target. You get a clearer overall picture
diagnostics workflow needs to begin
of the interaction between various
with a liquid handling workstation that
organisms, as well as identifying
can perform sample extraction, library
coinfections or predicting antibiotic
preparation and any other pipetting
resistance, both of which can influence
task in the pathway. This will remove
the outcome of treatment and disease.”
much of the labor that goes into preparing hundreds of samples a day,
“We initially began with respiratory
and will increase our throughput
indications, creating an assay that
dramatically. The sequencing data can
provides a thorough genomic
then be run through our automated,
investigation of over 270 pathogens
AI-driven data analysis solution with
and around 1,200 different
syndrome-specific reporting – such as
antimicrobial resistance alleles. This
selective reporting of pathogens
means that a patient presenting with
commonly linked to genitourinary
COPD symptoms can be given the
infections – to provide clinicians with a
same assay as a patient with
clear interpretation of results in a
suspected TB, for example, so it is not
diagnostic report.”
With automated sample preparation, the sky is the limit for metagenomic sequencing, and we can really begin to appreciate its potential for diagnostic testing and tracing outbreaks of disease.
disease specific. We then adapted this approach to develop one workflow
“With automated sample preparation,
that could be used for almost every
the sky is the limit for metagenomic
disease area, including respiratory
sequencing, and we can really begin to
infections, genitourinary infections,
appreciate its potential for diagnostic
sepsis and many more.”
testing and tracing outbreaks of
To find out more about Tecan’s solutions for automated clinical diagnostics, visit diagnostics.tecan.com
disease. One thing that the COVID-19 IDbyDNA has already completely
pandemic has shown us all is that it is
To learn more about IDbyDNA,
automated its data analysis and
not only important to detect a virus,
go to www.idbydna.com
reporting, and is now looking to
but also to do surveillance and
automate its laboratory workflows.
understand the disease landscape on
TECAN JOURNAL 2/2021
21
DETECTION
Don’t miss a beat with live cell imaging US-based company zPREDICTA™ has created a novel 3D technology that reconstructs physiologically-relevant and organ-specific human microenvironments for drug discovery and development. High throughput cell imaging and real-time cytometry of these 3D cultures can give a day-by-day account of cellular behavior and modulations of various immune cell populations to evaluate the efficacy of anticancer drugs. Too often, drugs that are tested in
human microenvironments, so that they
preclinical trials later fail in human
behave in the same way as they do in
clinical trials due to their lack of
patients. We began by developing
efficacy. This is largely because drug
tumor-specific models to simulate the
discovery tends to rely on either
complex human organ environment for
non-physiological 2D cell culture or
testing various anticancer drug types
physiologically-irrelevant mouse
– including small molecules, antibodies,
models that can only go so far in
antibody drug conjugates and CAR-T
representing human diseases or the
cells – and have since branched out into
complex landscape of the human tissue
other organ-specific models.”
immune response. Tissue specialist
22
TECAN JOURNAL 2/2021
zPREDICTA, based in California, USA,
Julia continued: “Our work really
has developed a novel 3D culture
focuses on immune oncology
technology for the recapitulation of
applications, looking at the interaction
physiologically-relevant and organ-
between different cell populations to
specific human microenvironments.
determine how various types of drugs
This platform mimics the native
can trigger immune cell responses. We
architecture and behavior of human
routinely perform large-scale drug
cells of the tissue of interest, and is
testing studies and acquire data from
available for various organ-specific
different doses and at various time
research focal areas, including
points, which can be tedious and
reconstructed bone marrow (r-Bone™),
extremely difficult to do manually
breast (r-Breast™), lung (r-Lung™) and
without making mistakes or transfer
stomach (r-Stomach™). This
errors. We wanted to increase our
comprehensive 3D culture approach
throughput and accuracy with
conserves many cellular and
automation and, in 2016, invested in a
extracellular elements, and is the
D300e Digital Dispenser from Tecan,
closest drug developers can get to
which made a tremendous difference to
human tissues in preclinical trials.
our workflows.”
Dr Julia Kirshner, founder and CEO of
“Our success with the D300e has
zPREDICTA, explained: “Our company
helped us build a trusting working
was established with the goal of
relationship with Tecan, and we have
creating more accurate and predictive
since collaborated on more projects,”
model systems for drug developers to
Julia added. “Recently, we’ve been
test new compounds, so that they are
optimizing the Spark® Cyto plate reader
actually effective in clinic. In oncology
for high throughput cell imaging and
– or any disease field for that matter –
real-time cytometry in our 3D cultures.
drugs need to be tested against models
The conventionally static method of
that match the conditions found in
examining cells under a microscope is
DETECTION
e needed something more sophisticated W that could give us good quality images – especially from 3D cultures – and the Spark Cyto does just that. labor intensive and time consuming, often taking days and requiring constant refocusing and plate movement to capture the right shot.
“The versatile Spark Cyto multimode
Instead, we wanted to invest in a high
reader is also a valuable tool for
throughput imager, but the lower-end
multiplexing analyses.
systems were not of a high enough
Physiologically-relevant 3D cultures
quality, and we couldn’t risk trading off
are far superior to other modeling
image resolution for throughput. We
methods for predicting clinical
needed something more sophisticated
outcomes, however, they are often
that could give us good quality images
more expensive and time consuming
– especially from 3D cultures – and the
to build than 2D cultures. By
Spark Cyto does just that.”
multiplexing assays, we can gather more readouts and information from
“The system saves us a huge amount
each experiment, saving time and
of time by capturing good quality, fast
resources. For example, with the
and dynamic images of our 3D
Spark Cyto, we have been able to
cultures, and automatically indexing
develop a multiplexed, sequential
the image to the same spot each time.
protocol of LIVE/DEAD cell staining
It also overlays each fluorescent
followed by CellTiter-Glo® analysis, all
channel for easy comparison and to
with just one compact instrument.”
avoid lengthy post-processing. The For Research Use Only. Not for use in
images can be captured in real time,
“Both the D300e and the Spark Cyto
thanks to the flexible temperature and
have been really beneficial for our
carbon dioxide controls, giving us a
regular workflows, and are routinely
clear picture of the step-by-step cell
applied to all internal and most
response to drug treatment. The
customer projects. The systems are
fluorescence capability of the
easy to maintain, and the software has
To find out more about Tecan’s
Spark Cyto allows us to follow the
been updated remotely by Tecan, so that we could continue operating
Spark Cyto, visit
behavior of different labeled cell types within the extracellular matrix, which
throughout the COVID-19 pandemic.
would be very difficult to achieve
We have established a great
otherwise. This is a real added bonus
relationship with Tecan that I feel we
for our customers too, as they often
can both benefit from, and I look
want to know whether immune cells
forward to this continuing in the
are capable of reaching a target area
future,” Julia concluded.
unaided, and this allows us to give them a concrete answer and day-by-
diagnostic procedures. Tecan D300e Digital Dispenser is a product of HP Inc. CA, USA.
www.tecan.com/sparkcyto To find out more about Tecan’s D300e Digital Dispenser, visit www.tecan.com/d300e To learn more about zPREDICTA, go to www.zpredicta.com
day account.”
TECAN JOURNAL 2/2021
23
DETECTION
Fluorescence imaging shines a light on systems biology Chromosomal tagging using advanced fluorescent labeling techniques can help us to understand cells at a systemic level. Researchers in Germany have developed a universal approach for CRISPR-Cas12a-assisted PCR tagging of mammalian genes, using scalable live cell imaging to optimize their methods. The Knop Lab at the University of
a Knop Lab PhD student working in
enables the rapid creation of
Heidelberg’s Center for Molecular
collaboration with the German Cancer
mammalian cell lines with targeted
Biology is researching the processes
Research Center, explained: “Our group
large chromosomal insertions, such as
that regulate cell signaling, cell
focuses on answering questions about
green fluorescent protein (GFP). These
differentiation, protein quality control
how cells work, and obtaining a
proteins can then be visualized with a
and homeostasis in yeast and in
systemic understanding of them. The
microscope or cell imaging system. The
clinically-relevant mammalian systems.
aim is to develop tools and methods for
aim is to establish a universal, scalable
The group combines live cell imaging
use by the wider research community,
and high-fidelity method to tag
with a range of fluorescence-based
to answer biological questions and
proteins in mammalian cells, enabling
techniques to observe protein function
develop a better understanding about
researchers to tag and target as many
and investigate biomolecular
cells’ behavior.”
proteins as possible.”
environment. These functional
“My focus is on method development,”
The group’s PCR tagging method
high-content imaging methods are
Krisztina continued. “Currently, I am
involves the transfection of a gene-
combined with genetic and genomic
working on optimizing a PCR tagging
specific PCR cassette into the target
approaches to explore the cellular
method, a one-step procedure for
cells, together with a helper plasmid
processes of interest. Krisztina Gubicz,
chromosomal gene tagging that
containing a Cas12a endonuclease,
interactions in their natural
The Knop Lab team (NOTE: Photo taken with respect to social distancing measures and COVID regulations within Germany.) 24
TECAN JOURNAL 2/2021
DETECTION
fusing a tag – such as GFP – onto the gene of interest. The process uses two gene-specific tags – termed M1 and M2 – with homology arms ranging from 50 to 90 nucleotides for targeted integration by homology-directed repair-based (HDR-based) genome editing. The M2 tagging oligo also provides a protospacer sequence for the Cas12a endonuclease. The generic template cassette contains a Cas12aspecific crRNA gene consisting of a promoter and crRNA direct repeat, as
The Knop Lab is taking advantage of the Spark Cyto’s fluorescence imaging and cytometry capabilities capabilities for PCR tagging experiments
well as providing the fluorescent tag and additional features, such as a selection marker. Expression of the crRNA gene inside the cell directs Cas12a expressed from the helper plasmid to a target locus close to the insertion site, causing a double strand break. The linear tagging cassette is then incorporated into the genome at this site by HDR. The homology arm of the M1 tagging oligo directs in-frame fusion of the tag with the target open reading frame, leading to the expression of a tagged protein. Krisztina continued: “When developing this universal method for CRISPR-Cas12a-assisted PCR tagging of mammalian genes, we initially relied on fluorescence microscopy methods for live cell imaging, and still use this technique extensively. However, we wanted a more scalable approach, and so acquired a Spark® Cyto, a multimode plate reader with fluorescence imaging and cytometry capabilities. This system
I t’s a much faster way to analyze cells than microscopy, because it not only enables live cell imaging, but also allows us to take advantage of the Image Analyzer software package to immediately quantify the success and efficiency of tagging experiments. only enables live cell imaging, but also
controlling the reader temperature at
allows us to take advantage of the
37 °C, we also plan to take advantage of
Image Analyzer™ software package to
the integrated gas control function to
immediately quantify the success and
maintain levels of CO 2 in the future. It’s
efficiency of tagging experiments. Most
been an interesting journey getting to
of the time, we’re working with a single
know the Spark Cyto and discovering
fluorophore at this stage, but we can
what we can use it for, and we’ve
also use the Spark Cyto’s multicolor
enjoyed excellent support from Tecan,”
application to automatically analyze
concluded Krisztina.
multiple channels, to perform
is a great addition to the lab, giving us
colocalization studies or introduce
another way to gather information
additional labels.” For Research Use Only. Not for use in
about the cells, and the success of the fluorescent tagging process. It allows us
“Although we mainly use the Spark Cyto
to rapidly image mammalian cells in a
for end-point measurements, we also
high quality and reliable way, and is
have the option to incubate cells inside
ideal for optimization studies, as it can
the reader if necessary. Most
simultaneously image the entire
experiments only take a couple of
microplate. This is a real advantage if
minutes per plate, but it’s good to know
we have several set-ups to evaluate, as
that we can incubate the cells in the
we can image every well used in the
measurement chamber if we need to, to
To learn more about the Knop Lab,
study. It’s a much faster way to analyze
make sure that they remain viable
go to www.knoplab.de
cells than microscopy, because it not
throughout the experiment. As well as
diagnostic procedures.
To find out more about Tecan’s Spark Cyto, visit www.tecan.com/sparkcyto
TECAN JOURNAL 2/2021
25
COVID-19
Computational biomedicine at the forefront of epigenomics The advent of new genetics technologies has exploded in the last decade. Since the unravelling of the human genome project in 2003, and with recent discoveries in the field of epigenetics, we are starting to understand not only how and when genes are expressed, but which post-translational modifications are important in disease, and how we can manipulate them therapeutically. Professor Christopher E Mason has developed new technologies to catalog genetic and epigenetic changes caused by everything from cancers to novel viruses, and these tools have proven invaluable during the COVID-19 pandemic. Since the first discoveries in the field of
large consortium tracking microbial
patients’ samples and swabs from
epigenetics in the 1950s, it has been
changes in urban environments. Initially,
hospital surfaces, etc.”
understood that all the inheritable
we were doing everything by hand, but
changes occurring within a cell cannot
our rapidly growing workload meant
The lab still had to adapt its workflow
be explained simply by the DNA
that we urgently needed a robust
to accommodate the unexpected
sequence itself. We now know that both
platform that could reliably and
increase in throughput due to testing of
environmental and lifestyle changes
continuously process the large numbers
COVID-19 patient samples. Dr Mason
can influence whether genes are
of samples we had coming in. Crucially,
expanded: “Since the beginning of the
expressed or silenced, and these factors
it needed to be something we could
pandemic, we have been involved in
can have potentially damaging effects
easily fit into our lab and allow us to hit
numerous projects, both for getting
on our health, such as making us more
the ground running. I heard about the
new testing methods onto the market
prone to developing certain diseases.
DreamPrep™ NAP workstation through
and for tracking the emergence of new
Professor Christopher E Mason is an
a number of our collaborators, and
strains as a result of viral evolution, to
expert in computational and systems
Tecan has a good reputation in the field,
help understand the implications for
genomics, having worked in the field for
so I contacted the company to see what
disease development, treatment and
over 15 years. He is one of the founding
we could do.”
vaccination. This means that our
directors of the MetaSUB International
workflow has been pretty much 5am to
Consortium. Through his research, he
“We were quickly able to set up and run
10pm every day. We really felt that this
has developed a wide knowledge of the
a high throughput platform using the
was a time where we could be most
epigenome and epitranscriptome –
DreamPrep NAP workstation to extract
useful to the wider society, and so we
DNA- and RNA-level modifications,
and process genetic material collected
worked as much as we could!”
respectively – to gather vast amounts
from either clinical samples, or from the
of data that will allow a better
environment – sewage, public benches,
“The DreamPrep NAP has fitted
understanding of how some of these
city subways, etc. I am very much an
seamlessly into our workflow, saving us
seemingly unrelated pathways interact
omnivore of genetics, so when I’m
time, energy and costs. Without it, I
in disease progression. Dr Mason
looking at viruses, I like to find them all,
don’t think we would have been able to
explained: “I oversee a combination of
which is why we use a shotgun
process anywhere near as many
molecular and computational biology
sequencing approach. This is the real
COVID-19 samples as we did, especially
research programs using ‘wet work’ at
fun part of science – pure discovery –
with the need to reduce the number of
the lab bench and the design of new
and in the environmental samples we’ve
staff we had in the lab at any one time. It
algorithms and machine learning to
been collecting, we’ve seen anywhere
has been a true workhorse, and very
process and make sense of the data
from 30 to 60 percent new species,
reliable, with the preprogrammed
that is generated and discover its
annotating them and tracking their
protocols working well. The support
biomedical meaning.”
evolution as we went. This very broad,
from Tecan has also been very
flexible approach meant that, when the
responsive. Any time we’ve had an issue
“Prior to the COVID-19 pandemic, we
pandemic hit, we were already very well
or questions, we’ve had someone on the
mostly processed cancer and
set up to provide a rapid platform to
phone really quickly, or coming to check
microbiome samples, the latter as part
track SARS-CoV-2 genetic material from
it out, which is essential in this kind of
of a project called MetaSUB, which is a
various sample types, including both
situation,” Dr Mason concluded.
26
TECAN JOURNAL 2/2021
COVID-19
For Research Use Only. Not for use in diagnostic procedures.
To find out more about Tecan’s DreamPrep NAP workstation, go to www.tecan.com/ dreamprep-nap-workstation For general information on nucleic acid purification visit www.tecan.com/nap
It has been a true workhorse, and very reliable, with the preprogrammed protocols working well.
To learn more about the MetaSUB consortium, visit www.metasub.org
TECAN JOURNAL 2/2021
27
DRUG DISCOVERY
Fighting neglected and non-communicable diseases Carbonic anhydrases (CAs) catalyze the reaction between water and carbon dioxide to regulate pH and fluid balance in vivo. Deviations in CA activity have been shown to correlate with bone, lung and liver diseases, as well as obesity, type II diabetes and even epilepsy. Professor Areej Abuhammad and her team at the University of Jordan are interested in developing novel therapies to counteract imbalances in CA activity, using protein crystallography to investigate a wide range of potential inhibitors. Carbonic anhydrases are a large group
X-ray crystallography to investigate the
great. And being very simple to set up,
of zinc metallo-enzymes that can
structure of proteins, and how the
and offering versatile applications, it is
reversibly catalyze water and carbon
ligands and inhibitors bind to them.
perfect. Setting up a new lab is always
dioxide – forming hydrogen and
This knowledge is very important for
difficult, especially when working with a
bicarbonate – to alter pH and carbon
structure-based drug discovery,
tight budget, but the Tecan team and
dioxide concentrations. Areej
making it easier to make an informed
local distributor were very supportive,”
Abuhammad, an Associate Professor in
decision on what needs to be altered,
Areej concluded.
Medicinal Chemistry at the University
as well as finding out which functional
of Jordan, is combining her background
groups are responsible for the activity.”
in computer-aided drug design, structural biology and medicinal
“A microplate reader is obviously a key
chemistry to investigate selective
instrument in our research, as we
inhibitors for CA. Areej explained: “The
perform a lot of enzyme activity assays,
function of carbonic anhydrases is to
screening a variety of different
control the pH in the body and, through
inhibitors and enzyme isoforms. I
it, a variety of biological processes.
therefore needed an instrument that
They are therefore linked to the
offers high sensitivity and can handle
etiology of many different pathogenic
small sample sizes, which is essential to
diseases.”
reduce the cost of screening. I also wanted a monochromators-based
“I have always been interested in
system, as we need the flexibility to
neglected diseases; I did my Master’s
perform a wide range of experiments,
degree on avian influenza and, during
screening as many different conditions
my PhD, I worked on drug discovery for
as we want without the limitation of
tuberculosis in the Departments of
filter sets.”
Pharmacology and Biochemistry at the University of Oxford. I moved back to
“After working with a Tecan instrument
Jordan after finishing my PhD, and
during my PhD, I decided to buy an
used the knowledge that I acquired to
Infinite® M Plex reader for our lab in
set up a protein crystallography lab to
Jordan, as this was the best for our lab.
perform research on CAs, combining
It offers the sensitivity and the
drug repurposing with fragment-based
accuracy level we need, while being
drug discovery.”
easy to set up and use. This intuitive operation, together with the system’s
“I am working with isozymes of CAs,
robustness, is something that I really
screening for the new inhibitors and
like about it. We have a lot of Master’s
testing their enzymatic activity. I am
students – as well as offering some
interested in knowing exactly how the
training to undergraduates – and they
inhibitors impact the enzyme; if they
are naïve to the sensitivity of these
inhibit or activate it, and how the
instruments when they first enter the
kinetics work. I also crystallize the
lab. Having a system that can withstand
proteins with the inhibitors and use
this without it compromising results is
28
TECAN JOURNAL 2/2021
DRUG DISCOVERY
I t offers the sensitivity and the accuracy level we need, while being easy to set up and use.
To find out more about Tecan’s Infinite M Plex, visit www.tecan.com/infinite200pro To learn more about Areej Abuhammad’s research, go to www.researchgate.net/profile/ Areej-Abuhammad
TECAN JOURNAL 2/2021
29
DRUG DISCOVERY
Robotic biology for the lab of the future Laboratory automation is increasingly common in life sciences research, helping to tackle some of the challenges that come with manual workflows, including inefficient operation, limited throughput and challenges of reproducibility. However, most automated platforms still require human operators to set up reagents, transfer plates between machines, and clean down afterwards. Dr Koichi Takahashi and his colleagues at the RIKEN Center for Biosystems Dynamics Research in Japan are developing a new type of laboratory automation workflow system that combines humanoid and other types of robots, creating a prototype for the lab of the future.
Dr Takahashi, principal investigator in
robot that can do experiments on its
Tokyo and Keio – we have been
the Laboratory for Biologically
own. We have a multidisciplinary team
developing a prototype robotic
Inspired Computing at RIKEN, and his
with experience in programming,
biology laboratory, where various
team are working on the application of
mathematics and lab-based skills, but
types of robots will interact together
artificial intelligence (AI) and machine
our common language is systems
to conduct different protocols. To do
learning techniques to mitigate the
biology, and our goal is to combine the
this, we are using a humanoid robot
overwhelming complexity in modeling
expertise of human beings, robots and
called LabDroid and linking systems
cellular systems. Dr Takahashi
AI.”
together with a common description
explained: “We are trying to
programming language called
understand very complicated life
Dr Takahashi continued: “Through a
systems with the help of computers
JST MIRAI funded collaborative
and AI. As part of that activity, we are
research project – involving RIKEN,
Most laboratory automation systems
focusing on developing a new type of
AIST and the universities of Tsukuba,
do not offer a complete workflow,
Imagining a robot room in the lab of the future 30
TECAN JOURNAL 2/2021
LabCode.”
DRUG DISCOVERY
requiring human operators to prepare
e have a multidisciplinary team with W experience in programming, mathematics and lab-based skills, but our common language is systems biology, and our goal is to combine the expertise of human beings, robots and AI.
reagents and act as the link between different machines, but robots can
able to carry out the entire process
offer an alternative. Dr Takahashi
without human intervention.”
described: “LabDroid is a high performance, dexterous humanoid
Dr Takahashi concluded: “I believe that
robot. It is about the same size as a
the fifth paradigm of science will be
human, and can mimic human
automation, after experimentation,
movements with delicate precision,
theory, simulation and data. It will be a
making use of standard lab equipment
paradigm change because automation
without modification. Because robots
is a strong – and even crucial – weapon
are very accurate and precise, they do
to combine data- and model-driven
not make mistakes, improving
approaches to accelerate research
reproducibility compared to manual
processes, especially when we want to
operation.”
understand the overwhelming complexity of cellular systems which are beyond our cognitive capacity. We
For full integration between different robots and machines, they need to be able to communicate through the same
Dr Koichi Takahashi of the RIKEN Center for Biosystems Dynamics Research
are going to continue working on cell culture with different types of cells, and we are trying to implement the system
programming language. However, most automation systems operate using their
The research team carried out a proof
for ‘omics’ experiments. We want to
own unique language, a challenge that
of concept study using a genome
showcase the power of our software to
the team looked to address. Dr
editing protocol from the University of
combine different types of robots and
Takahashi elaborated: “LabCode
Tokyo. Dr Takahashi explained: “The
many different types of experimental
interprets a command, and
protocol involves cell seeding and
protocols, maximizing the potential of
automatically generates programs that
culture, followed by DNA extraction
the entire system to develop the lab of
can be understood by different
and barcoding. LabDroid is good at
the future.”
hardware from various vendors, using
the cell culture, and we used the
separate transcription languages. This
Freedom EVO for the DNA extraction,
allows machines to be connected to
as it is very efficient for liquid handling
one network and interpret the same
tasks. To describe the workflow using
command codes. For example, we use
LabCode, we gave the compiler the
To find out more about Tecan’s
the Freedom EVO® platform for liquid
environmental definitions of the machine hardware and the
Freedom EVO platform, visit
handling, which has a nice open API interface, so we could construct our
dependencies between the protocol
software using this easily interpreted
components, and it generated the
information with some help from Tecan
workflow through dynamic
engineers. We can also use LabCode to
programming, providing the
capture tacit knowledge from human
instructions for the human operators,
operators, and feed this into the control
LabDroid and the Freedom EVO with
of the robots.”
the optimum settings. The system was
For Research Use Only. Not for use in diagnostic procedures.
lifesciences.tecan.com/ freedomevo To learn more about RIKEN Center for Biosystems Dynamics Research, go to www.bdr.riken.jp
TECAN JOURNAL 2/2021
31
The Blog TRENDS, NEWS, STORIES AND MUCH MORE! FROM THE EXPERTS TO YOU. www.tecan.com/blog
Every lab. Every day. Empowered. Australia +61 3 9647 4100 Austria +43 62 46 89 330 Belgium +32 15 42 13 19 China +86 21 220 63 206 France +33 4 72 76 04 80 Germany +49 79 51 94 170 Italy +39 02 92 44 790 Japan +81 44 556 73 11 Netherlands +31 18 34 48 17 4 Nordic +46 8 750 39 40 Singapore +65 644 41 886 Spain +34 93 595 25 31 Switzerland +41 44 922 89 22 UK +44 118 9300 300 USA +1 919 361 5200 Other countries +41 44 922 81 11 Tecan Journal, Customer Magazine of Tecan Trading AG., ISSN 1660-5276 Design: OTM/London www.otmcreate.com Photography: Günter Bolzern/Zürich www.bolzern.tv Editor in Chief: Tecan Trading AG, Antonietta Allocca Project Lead: Tecan Trading AG, Rina Hernandez-Sae Ma Editor: kdm/UK www.kdm-communications.com Editor: UP THERE, EVERYWHERE/Sweden upthereeverywhere.com Print: DAZ Druckerei Albisrieden AG/Zurich www.daz.ch Address: Tecan Trading AG, Marketing Communications, Seestrasse 103, CH-8708 Männedorf, Switzerland, hello@tecan.com, www.tecan.com Images that are not owned by Tecan have been reproduced with permission, and may have been taken prior to implementation of social distancing measures. To register for the Tecan Journal please go to www.tecan.com/journal © 2021 Tecan Trading AG, Switzerland, all rights reserved.
www.tecan.com
Tecan Group Ltd. makes every effort to include accurate and up-to-date information within this publication, however, it is possible that omissions or errors might have occurred. Tecan Group Ltd. cannot, therefore, make any representations or warranties, expressed or implied, as to the accuracy or completeness of the information provided in this publication. Changes in this publication can be made at any time without notice. All mentioned trademarks are protected by law. In general, the trademarks and designs referenced herein are trademarks, or registered trademarks, of Tecan Group Ltd., Mannedorf, Switzerland. A complete list may be found at www.tecan.com/trademarks. Product names and company names that are not contained in the list but are noted herein may be the trademarks of their respective owners. For technical details and detailed procedures of the specifications provided in this document please contact your Tecan representative. This journal may contain reference to applications and products which are not available in all markets. Please check with your local sales representative: www.tecan.com/contact
