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== BioMicro Center News ==
{|
|rowspan=2 valign=top style="width:60%;padding-right:10px;"|
== OCTOBER 9, 2012 ==
A quick, almost all Illumina, update:<BR><BR>
First, the Illumina loaner [[BioMicroCenter:Sequencing#HiSeq_2000|HiSeq]] is now up and running and we are running at full speed. Our last full flowcell in the queue is loading this week so we should finally be back to normal (hopefully).  We cannot prevent instrument failure but at least any issues should have less of a negative impact for the 6 weeks or so while the loaner is here (in other words, if you have time sensitive samples, now is the time to get them in).<BR><BR>


{|
Second, our [[BioMicroCenter:Sequencing#MiSeq|MiSeq]] is scheduled for its upgrade in the next two weeks. This will make two changes. First, the number of reads per run will increase significantly – from ~5m to ~15m. Secondly, the upgrade will add a third tier of read lengths – 500nt. The 500nt run will cost a few hundred more than the 300nt run and will take a second day, but will give us read lengths longer than anything else in the BioMicro Center.<BR><BR>
|rowspan=2 valign=top style="width:55%;padding-right:10px;"|  


=== Aug 9, 2010 ===
Third, Illumina is having a user meeting on Thursday over at the [http://whereis.mit.edu/?go=L11 Hyatt]. The meeting is likely to be at least moderately technical but is free if you are interested in going. Registration is at: http://eventregistration.illumina.com/d/scqsm0/4W<BR><BR>
Dear Users,<br>
There have been a number of significant changes in the BioMicro Center in the past few months and there will be more to come.  To keep you up to date, I will again be sending out a newsletter every month or two with highlights of what is going on. Unlike previous newsletters, these will only be sent to those who have used the facility within the past year or so, so be sure to spread the word if you see items that might be of interest to others in your lab!
====New equipment====
A number of pieces of new equipment have been added to the BioMicro Center, particularly in the area of high throughput screening. First, through an equipment grant sponsored by Wendy Gilbert, we have added a second robotic fluidics machine that is specifically geared for screening 96 and 384 well plates.  Unlike the older robot, this [[BioMicroCenter:Tecan_Freedom_Evo|Tecan]] has a plate manipulating arm that allows it to handle much larger experiments. We also have added the [[BioMicroCenter:RTPCR|Fluidigm Biomark]] which has been relocated from E17 and we are also in the evaluation phase for the [[BioMicroCenter:Nanostring|Nanostring nCounter]]. Both of these machines allow you to look at a large number of genes / SNPs across a large number of samples. The [[BioMicroCenter:RTPCR|Biomark]] is a nanofluidic RT-PCR machine that creates large matrices (either 48x48 or 96x96) of samples and primers, allowing you to do close to 10,000 RT-PCR reactions on a plate. The [[BioMicroCenter:Nanostring|nCounter]] uses a [[BioMicroCenter:Nanostring|“code set”]] of up to 800 genes to hybridize to dozens or hundreds of samples, then visualizes the single molecule interactions. The [[BioMicroCenter:Nanostring|nCounter]] is particularly interesting in that it does not require conversion of the sample to cDNA, or even purification of the RNA. Information about all of these instruments can be found on our website.


====New services====
  "The Boston User Group Meeting: Continuing advances in Illumina’s genomic analysis technologies are rapidly changing the way scientists
We are happy to announce the beginning of sample preparation services for Illumina sequencing. We are introducing this service starting with double stranded DNA fragments (>100bp) such as de novo genomic sequencing, resequencing, ChIP-seq and RNA-seq that has been converted to cDNA. The service includes QC, end-repair, adaptor ligation, size selection and enrichment. Once samples are prepared, they are validated and added directly to the Illumina sequencing queue. Right now, this service is limited, but we are hoping to introduce multiplexing and RNA samples in the near future.
  in a variety of disciplines  approach their research. Through a series of local user group meetings, Illumina is providing an opportunity  
====Upcoming Events====
  for our customers to showcase their research as well as a forum to discuss protocol optimization and bioinformatics solutions.  Additionally,
With so many changes both in new equipment and upgrades to current equipment we wanted to create an opportunity for you to learn more about the assays available in the facility. To help with this, we will be sponsoring a “Technology Seminar Series” this fall. The weekly seminars will be at noon on Mondays (lunch will be provided). Each week we will showcase a different technology in the facility and bring you up to date on the latest advances and future directions of the technology. We have asked the companies we have invited to bring their scientists to speak (not the sales team) so you have a chance to interact with them directly.  
  you will hear about the latest updates to our products and enhancements to the Illumina Next Generation Sequencing workflow, as well as have  
I hope you are having a great summer!<br>
  the opportunity to interact with key vendors who provide products that support the NGS workflow. Continental breakfast, breaks, and lunch
-Stuart
  will be provided."


=== May 13, 2010 ===
Finally, a couple quicker notes:
In order to increase the space available for equipment in the BioMicro Center, we are doing a little more remodeling. Please note the following changes:
* The freezers have been relocated to the 304 hallway
* The RT-PCR machines will be moving to the 316 entry.
We hope this change will make accessing the [[BioMicroCenter:RTPCR|RT-PCR]] machines easier and will also create room for the [[BioMicroCenter:Tecan_Freedom_Evo|new Tecan EVO 150]], scheduled to arrive in early June. Keep an eye on this page for future updates!


=== April 19, 2010 ===
* We frequently update our [[BioMicroCenter:Forms|forms]] on the website (and not the file name). We typically do this after there has been some kind of communication based error. For submissions, please make sure you have the most recent one by downloading them regularly.
* We have a position open in the lab for a technical assistant. If you know anyone who you think would be a good fit for the BioMicro Center who is looking for a position, please ask them to [http://sh.webhire.com/servlet/av/jd?ai=631&ji=2645644&sn=I apply (mit-00009096)].
<BR><BR>


Starting next month, the [http://mit.edu/ki/index.html Koch Institute] and the MIT BioMicro Center will be hosting a [http://www.nanostring.com/ Nanostring] nCounter system on a trial basis. The [http://www.nanostring.com/products/ncounter/ nCounter system] is a [http://www.nanostring.com/applications/technology/ single molecule visualizer] that quantitatively detects RNA and other nucleic acids using a hybridization system in a highly multiplex manner. The system uses color-coded molecular barcodes to digitally count nucleic acid molecules in solution. The system does not use enzymes for detecting the nucleic acids, allowing direct measurements of mRNA from a variety of input materials including degraded RNA or crude cell lysates.
== SEPTEMBER 19, 2012 ==
We hope everyone had a great summer. A couple of updates for you:<BR><BR>


The instruments will be located in the BioMicro Center and will be available to all members of the MIT community. We will be using this time to gauge the level of interest in the nCounter and whether it would be a viable system to purchase.  
First, and most importantly, I know a lot of you have been affected by very long Illumina turnaround times for HiSeq samples, and especially those for long reads. Our HiSeq has had a very large run of failures this summer and it is affecting everyone. Short reads have been able to sneak through between the failures, so the problem is not quite as bad there, but we have been working very hard with Illumina to get the HiSeq back running efficiently. I can finally report some good news on this front. First, Illumina is shipping us a second HiSeq this week to help us clear through the back log.  In addition, we are enormously grateful to the Biopolymer core at the KI which has taken several of our backlogged flowcells and is helping us work through the queue. Hopefully, these changes will allow us to get on top of our queue and get sequencing turn around back to where it should be. <BR><BR>


If you are interested in learning more, we will be hosting a seminar with [http://www.nanostring.com/ Nanostring] representatives on April 30th. The seminar will be at 11am in 68-181. Nanostring representatives will be available after the talk to discuss the instruments and specific applications. More information is in the [[Media:Nanostring_abstract.pdf‎|ABSTRACT]] for the talk.
On a more positive note, we have been able to significantly increase our throughput in quality control for Illumina over the past few months. First, we have begun using the Advanced Analytical Fragment Analyzer (donated by the Dept. of Biology) to replace the Agilent Bioanalyzer for Illumina libraries. The fragment analyzer uses capillary electrophoresis to measure fragment length and quantity of DNA and RNA molecules much the same way the BioAnalyzer does. However, unlike the bioanalyzer, it can run unattended, allowing us to process more samples per day. It also appears to have a lower failure rate and a broader dynamic range, both key elements in our analysis. In addition, through a collaboration with the new KI High Throughput Screening Core, we have been able to automate our qPCR analysis using the Tecan systems in the BioMicro Center. This is enabling us to run 384 well qPCRs in a much less labor intensive manner while maintaining high quality. We’re still recalibrating our cluster densities using the Tecans but we are very close to having the last few details ironed out. <BR><BR>


=== April 1, 2010 ===
Couple of other quick notes:
- We’ve had a few additions to our staff with Scott Morin joining us as a technical assistant, replacing Kevin Thai, and Margaret Minnig and Kate Tracka joining us from Northeastern for the summer / fall.
- The Technology Seminar Series will resume in the spring. We have been too focused on the Illumina issues to schedule the vendors this fall.


Thanks to the generosity of a grant from the [http://www.moore.org/ Moore Foundation] to Dr. Penny Chisholm and ARRA funding to Dr. Chris Burge the BioMicro Center will be significantly expanding our sequencing capacity over the next 4-6 months. The first step of this expansion begins today with the addition of a new [http://www.illumina.com/systems/genome_analyzer_iix.ilmn GAIIx] and [http://www.illumina.com/systems/genome_analyzer/cbot.ilmn cBot] from Illumina. We are working hard to get ''"Ryland"'' and ''"Agustus Gloop"'' up and running and we hope to be able to shorten our queue times very soon!


=== March 2010 ===
== JUNE 5, 2012 ==
Due to an increase in the cost of Illumina reagents, increase in data file size, and the complexity of sample preps, we have had to increase, slightly, the cost of Illumina sequencing. These new rates will be effective on samples submitted after April 1, 2010. Samples already in the queue will use the current rates.
A couple major Illumina announcements to begin with. First, thanks to the generosity of Dr. Chris Love, the BioMicro Center now has an Illumina MiSeq available. The MiSeq is Illumina’s newest sequencer and is optimized for speed and long read lengths. The MiSeq flowcell contains a single lane with 5 million clusters. While this is well below the 200m reads per lane on the HiSeq, the small surface area enables it to run much faster with a cycle taking only 5 minutes. This means that a 150+150 paired end run can be done in a little over a day, instead of requiring two weeks or more of sequencing. The MiSeq is ideal for applications that do not require enormous read depth, such as microRNA analysis, resequencing of small genomes, barcode sequencing or sequencing amplicons. There are a number of caveats about the MiSeq that can impact your experiment, most notably that there is no separate control lane which means you need to be more careful about base balance, and we are happy to talk with you more about it.<BR><BR>


{| border=1 align="right"
The second announcement is about our venerable GAIIs. As some of you may have noticed, submitting samples for the GAII has been an exercise in extreme patience as we have struggled to fill flowcells due to low demand. The addition of the MiSeq, and some fantastic efforts by Michael Gravina in the lab, has enabled us to rework how we are processing GAII flowcells. We have been able to create partial flowcells on the GAII by altering recipes and making a few minor “modifications”. This has allowed us to move from a model like the HiSeq, where we need a full flowcell before we run, to a model where we can run as soon as the samples pass quality control, more like the MiSeq. However, unlike the MiSeq, we can run multiple lanes at once. Also, running partial flowcells means we can skip parts of the imaging time which does speed up the sequencing (though not to the level of the MiSeq). Some critical caveats: First, these methods are not supported by Illumina, so we cannot offer to replace failed runs. Second, unlike the HiSeq, the PhiX lane is *not* included. You must choose to sequence a lane of PhiX if you want to do control normalization. Finally, this service is completely "a la carte" so the pricing schema is quite different. To go along with these changes, [[BioMicroCenter:Sequencing|we have completely reworked the Illumina page on our website]], so take a look there for more information about the MiSeq, the new GAII methods and pricing.<BR><BR>
! ILLUMINA SEQUENCING
A couple quick final announcements:
!width=100| MIT - current
* Pricing for the next fiscal year is now on the [[BioMicroCenter:PricingFY2013|Website]]. Prices have generally moved lower, though there are slightly higher prices in a few areas.
!width=100| MIT - April 1, 2010
* The BioMicro Center will be running on a skeleton staff the week of June 11th (the week of the Building 68 retreat and the KI symposium). There will be some staff on hand but our throughput will be significantly lower than normal.
!width=100| unit
* Finally, last month we said goodbye to Barbara Karamapalas who has been running our automation efforts. Stuart Levine will be handling the Tecans while we are looking for a replacement. We will also be having more turnover in the next couple months as well. Our current co-op, Linda Nguyen, will be leaving at the end of June to return to Northeastern and Kevin Thai will be stepping down in July to take a little bit of time off before he returns to MIT as a graduate student. We wish them all the best of luck and we’re looking very aggressively for their replacements!
! Notes
|-
| Single End (36nt)
|align="right"| $805
|align="right"| $860
|align="center"| per lane
| inlcudes quality control (RT-PCR or BioAnalyzer), sequencing, genome alignment and data storage of Firecrest files for 2 yrs.
|-
| Paired End (36+36nt)
|align="right"| $1,385
|align="right"| $1,450
|align="center"| per lane
|
|-
| Add'l 36nt
|align="right"| $295
|align="right"| $300
|align="center"| per lane
|-
| Sample Multiplexing
|align="right"| $0
|align="right"| $50
|align="center"| per 10 samples combined
| Combined over the whole order. Only applies to samples combined by BCM technicians.
|-
| Repriming
|align="right"| $200
|align="right"| $300
|align="center"| per flow cell
| Uses 6nt. Cost is divided by number of lanes requiring repriming. Repriming is required for standard Illumina multiplexing.
|-
|}
<BR>
Non-MIT rates are 30% higher for academic institutions and 50% highers for non-academic institutions. Priority is given to samples from CORE facilities.




|-
== APRIL 19, 2012 ==
|valign="top" width="45%"|
There have been a large number of changes in BioMicro to catch you up on in several different areas since my last newsletter. First, I need to begin by introducing Shmulik Motola, our new lab manager. Shmulik has been on board for several months now and is coordinating the flow of projects through the lab. Shmulik did his graduate work at the Weizmann Institute and was a Postdoctoral Associate in Dr. Ernest Fraenkel’s lab here at MIT. Shmulik is the go to person for questions you have about the status of your projects, Illumina queue times, etc. and can also help you with experimental design (shmulikm@mit.edu)


===RECENT & UPCOMING CHANGES===
Second, we have expanded our equipment repertoire with the purchase of a Sage BluePippin preparative electrophoresis system (http://www.sagescience.com/bluepippin/). The Pippin prep is an automated system for extracting bands from agarose gels. We are currently testing the system out and will be deploying it to several of our Illumina library preparation methods. We’re planning to use it as part of the RNAseq methodology to provide much tighter size distributions than the SPRIworks can manage. In addition, high percentage agarose gels should enable us to begin to offer library preparation for small RNA sequencing (contact Shmulik if you would like to volunteer for our beta). Because  the BluePippin has a pulse field feature, it should also be useful for building jumping libraries as well as isolating fragments for the new “long read” sequencing technologies, such as Oxford Nanopore. Of course, the Pippin prep is also available for your more “mundane” chores such as isolating bands for cloning.


{{BioMicroCenter:News/Changes/Content}}
Finally, our BioInformatics team has had a major overhaul. Dr. Fugen Li left MIT at the end of last year and has been replaced by Dr. Ryan Abo from the Mayo Clinic and Dr. Vincent Butty from Dr. Chris Burge’s lab.  Both bring with them years of experience and, along with Dr. Huiming Ding, are available to help with any informatics challenges you have in your research, especially those related to sequencing. In addition to providing direct research support, we are looking forward to offering short classes on informatics beginning in the summer or fall. We’re in the planning stages now so if you have ideas on subjects you would like us to cover, please let us know.


|valign="top"|


<B><BIG>PREVIOUS NEWSLETTERS </BIG></B>
== PREVIOUS NEWSLETTERS ==


{|
|'''[[BioMicroCenter:News/2009|2009]]'''
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|{{BioMicroCenter:News/2009/Content}}
|-
|'''[[BioMicroCenter:News/2008|2008]]'''
|-
|{{BioMicroCenter:News/2008/Content}}
|}


'''[[BioMicroCenter:News2011|2011]]'''<BR>
'''[[BioMicroCenter:News2010|2010]]'''
<br>
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<B><BIG>RECENT CHANGES TO THE WEBSITE <\BIG><\B>
 
== RECENT CHANGES TO THE WEBSITE ==
{{BioMicroChanges}}
{{BioMicroChanges}}


|}
|}

Revision as of 17:06, 9 October 2012

HOME -- SEQUENCING -- LIBRARY PREP -- HIGH-THROUGHPUT -- COMPUTING -- OTHER TECHNOLOGY

BioMicro Center News

OCTOBER 9, 2012

A quick, almost all Illumina, update:

First, the Illumina loaner HiSeq is now up and running and we are running at full speed. Our last full flowcell in the queue is loading this week so we should finally be back to normal (hopefully). We cannot prevent instrument failure but at least any issues should have less of a negative impact for the 6 weeks or so while the loaner is here (in other words, if you have time sensitive samples, now is the time to get them in).

Second, our MiSeq is scheduled for its upgrade in the next two weeks. This will make two changes. First, the number of reads per run will increase significantly – from ~5m to ~15m. Secondly, the upgrade will add a third tier of read lengths – 500nt. The 500nt run will cost a few hundred more than the 300nt run and will take a second day, but will give us read lengths longer than anything else in the BioMicro Center.

Third, Illumina is having a user meeting on Thursday over at the Hyatt. The meeting is likely to be at least moderately technical but is free if you are interested in going. Registration is at: http://eventregistration.illumina.com/d/scqsm0/4W

 "The Boston User Group Meeting: Continuing advances in Illumina’s genomic analysis technologies are rapidly changing the way scientists 
 in a variety of disciplines  approach their research. Through a series of local user group meetings, Illumina is providing an opportunity 
 for our customers to showcase their research as well as a forum to discuss protocol optimization and bioinformatics solutions.  Additionally, 
 you will hear about the latest updates to our products and enhancements to the Illumina Next Generation Sequencing workflow, as well as have 
 the opportunity to interact with key vendors who provide products that support the NGS workflow.  Continental breakfast, breaks, and lunch 
 will be provided."

Finally, a couple quicker notes:

  • We frequently update our forms on the website (and not the file name). We typically do this after there has been some kind of communication based error. For submissions, please make sure you have the most recent one by downloading them regularly.
  • We have a position open in the lab for a technical assistant. If you know anyone who you think would be a good fit for the BioMicro Center who is looking for a position, please ask them to apply (mit-00009096).



SEPTEMBER 19, 2012

We hope everyone had a great summer. A couple of updates for you:

First, and most importantly, I know a lot of you have been affected by very long Illumina turnaround times for HiSeq samples, and especially those for long reads. Our HiSeq has had a very large run of failures this summer and it is affecting everyone. Short reads have been able to sneak through between the failures, so the problem is not quite as bad there, but we have been working very hard with Illumina to get the HiSeq back running efficiently. I can finally report some good news on this front. First, Illumina is shipping us a second HiSeq this week to help us clear through the back log. In addition, we are enormously grateful to the Biopolymer core at the KI which has taken several of our backlogged flowcells and is helping us work through the queue. Hopefully, these changes will allow us to get on top of our queue and get sequencing turn around back to where it should be.

On a more positive note, we have been able to significantly increase our throughput in quality control for Illumina over the past few months. First, we have begun using the Advanced Analytical Fragment Analyzer (donated by the Dept. of Biology) to replace the Agilent Bioanalyzer for Illumina libraries. The fragment analyzer uses capillary electrophoresis to measure fragment length and quantity of DNA and RNA molecules much the same way the BioAnalyzer does. However, unlike the bioanalyzer, it can run unattended, allowing us to process more samples per day. It also appears to have a lower failure rate and a broader dynamic range, both key elements in our analysis. In addition, through a collaboration with the new KI High Throughput Screening Core, we have been able to automate our qPCR analysis using the Tecan systems in the BioMicro Center. This is enabling us to run 384 well qPCRs in a much less labor intensive manner while maintaining high quality. We’re still recalibrating our cluster densities using the Tecans but we are very close to having the last few details ironed out.

Couple of other quick notes: - We’ve had a few additions to our staff with Scott Morin joining us as a technical assistant, replacing Kevin Thai, and Margaret Minnig and Kate Tracka joining us from Northeastern for the summer / fall. - The Technology Seminar Series will resume in the spring. We have been too focused on the Illumina issues to schedule the vendors this fall.


JUNE 5, 2012

A couple major Illumina announcements to begin with. First, thanks to the generosity of Dr. Chris Love, the BioMicro Center now has an Illumina MiSeq available. The MiSeq is Illumina’s newest sequencer and is optimized for speed and long read lengths. The MiSeq flowcell contains a single lane with 5 million clusters. While this is well below the 200m reads per lane on the HiSeq, the small surface area enables it to run much faster with a cycle taking only 5 minutes. This means that a 150+150 paired end run can be done in a little over a day, instead of requiring two weeks or more of sequencing. The MiSeq is ideal for applications that do not require enormous read depth, such as microRNA analysis, resequencing of small genomes, barcode sequencing or sequencing amplicons. There are a number of caveats about the MiSeq that can impact your experiment, most notably that there is no separate control lane which means you need to be more careful about base balance, and we are happy to talk with you more about it.

The second announcement is about our venerable GAIIs. As some of you may have noticed, submitting samples for the GAII has been an exercise in extreme patience as we have struggled to fill flowcells due to low demand. The addition of the MiSeq, and some fantastic efforts by Michael Gravina in the lab, has enabled us to rework how we are processing GAII flowcells. We have been able to create partial flowcells on the GAII by altering recipes and making a few minor “modifications”. This has allowed us to move from a model like the HiSeq, where we need a full flowcell before we run, to a model where we can run as soon as the samples pass quality control, more like the MiSeq. However, unlike the MiSeq, we can run multiple lanes at once. Also, running partial flowcells means we can skip parts of the imaging time which does speed up the sequencing (though not to the level of the MiSeq). Some critical caveats: First, these methods are not supported by Illumina, so we cannot offer to replace failed runs. Second, unlike the HiSeq, the PhiX lane is *not* included. You must choose to sequence a lane of PhiX if you want to do control normalization. Finally, this service is completely "a la carte" so the pricing schema is quite different. To go along with these changes, we have completely reworked the Illumina page on our website, so take a look there for more information about the MiSeq, the new GAII methods and pricing.

A couple quick final announcements:

  • Pricing for the next fiscal year is now on the Website. Prices have generally moved lower, though there are slightly higher prices in a few areas.
  • The BioMicro Center will be running on a skeleton staff the week of June 11th (the week of the Building 68 retreat and the KI symposium). There will be some staff on hand but our throughput will be significantly lower than normal.
  • Finally, last month we said goodbye to Barbara Karamapalas who has been running our automation efforts. Stuart Levine will be handling the Tecans while we are looking for a replacement. We will also be having more turnover in the next couple months as well. Our current co-op, Linda Nguyen, will be leaving at the end of June to return to Northeastern and Kevin Thai will be stepping down in July to take a little bit of time off before he returns to MIT as a graduate student. We wish them all the best of luck and we’re looking very aggressively for their replacements!


APRIL 19, 2012

There have been a large number of changes in BioMicro to catch you up on in several different areas since my last newsletter. First, I need to begin by introducing Shmulik Motola, our new lab manager. Shmulik has been on board for several months now and is coordinating the flow of projects through the lab. Shmulik did his graduate work at the Weizmann Institute and was a Postdoctoral Associate in Dr. Ernest Fraenkel’s lab here at MIT. Shmulik is the go to person for questions you have about the status of your projects, Illumina queue times, etc. and can also help you with experimental design (shmulikm@mit.edu)

Second, we have expanded our equipment repertoire with the purchase of a Sage BluePippin preparative electrophoresis system (http://www.sagescience.com/bluepippin/). The Pippin prep is an automated system for extracting bands from agarose gels. We are currently testing the system out and will be deploying it to several of our Illumina library preparation methods. We’re planning to use it as part of the RNAseq methodology to provide much tighter size distributions than the SPRIworks can manage. In addition, high percentage agarose gels should enable us to begin to offer library preparation for small RNA sequencing (contact Shmulik if you would like to volunteer for our beta). Because the BluePippin has a pulse field feature, it should also be useful for building jumping libraries as well as isolating fragments for the new “long read” sequencing technologies, such as Oxford Nanopore. Of course, the Pippin prep is also available for your more “mundane” chores such as isolating bands for cloning.

Finally, our BioInformatics team has had a major overhaul. Dr. Fugen Li left MIT at the end of last year and has been replaced by Dr. Ryan Abo from the Mayo Clinic and Dr. Vincent Butty from Dr. Chris Burge’s lab. Both bring with them years of experience and, along with Dr. Huiming Ding, are available to help with any informatics challenges you have in your research, especially those related to sequencing. In addition to providing direct research support, we are looking forward to offering short classes on informatics beginning in the summer or fall. We’re in the planning stages now so if you have ideas on subjects you would like us to cover, please let us know.

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N    18:40  3D Cell Culture - McLean Taggart, Emma Villares, Maximillian Marek, Scott LeBlanc, Adam Lyons and Jacob Belden diffhist +24,060 CarterPaul talk contribs (Created page with "{{Template:CHEM-ENG590E}} ==Introduction== While most microfluidic devices incorporate a 2D cell culture design, in which a single layer of cells is grown on the bottom of a device, these systems suffer from poor <i>in vivo</i> mimicry, as, in the human body, most cells grow in all directions.<sup>https://doi.org/10.5114/aoms.2016.63743 1</sup> To address this limitation, 3D cell culture devices have been developed - in w...")
      18:38  CHEM-ENG590E:Wiki Textbook‎‎ 2 changes history +63 [CarterPaul‎ (2×)]
     
18:38 (cur | prev) +50 CarterPaul talk contribs (→‎Chapter 1 - Microfabrication)
     
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     18:36  3D Cell Culture - McLean Taggart, Emma Villares, Maximillian Marek, Scott LeBlanc, and Adam Lyons diffhist +5,343 CarterPaul talk contribs (Added a Technique and applications section)
      10:20  Yarn Microfluidics - Roger Dirth‎‎ 12 changes history +442 [Rcostello‎ (12×)]
     
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     08:18  3D Printed Microfluidic Robots - Helen Hua‎‎ 2 changes history +6 [Michele Caggioni‎ (2×)]
     
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     08:11  3D Printing Overview diffhist +422 Michele Caggioni talk contribs

15 April 2024

      23:43  User:Yanbin Huang‎‎ 2 changes history +170 [Yanbin Huang‎ (2×)]
     
23:43 (cur | prev) 0 Yanbin Huang talk contribs (→‎Granted Patents)
     
23:43 (cur | prev) +170 Yanbin Huang talk contribs (→‎Granted Patents)
     22:11  The paper that launched microfluidics - Xi Ning‎‎ 7 changes history +3,802 [Xning098‎ (7×)]
     
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     21:45 Upload log Xning098 talk contribs uploaded File:Figure 4 Tdesign.png
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