Gorkem Garipler, PhD
@ggaripler
Followers
109
Following
316
Media
5
Statuses
28
Senior Scientist @PatchBiosciences | Ph.D. @EstebanMazzoni Lab @NYU
Joined July 2015
Our work on transcription factor-wide CRISPR screen identifying essential TFs for stem cell pluripotency is officially out @CellReports!🎉 Special thanks to my advisor @EstebanMazzoni and collaborators @nevillesanjana and @congyilv for this great work!.
cell.com
With a highly sensitive CRISPR loss-of-function screen targeting all TFs in the mouse and human genome, Garipler et al. show that ZBTB11 and ZFP131 TFs are required for embryonic stem cell pluripot...
6
23
110
Super excited to share our latest publication.@NatureComms .identifying transcription factors required for neuronal differentiation with a CRISPR KO screen! 🥳 Coming from a great team w @congyilv @chaodai @nevillesanjana @EstebanMazzoni 🚀.
TWEETORIAL time! In new work, we identify required transcription factors for neural differentiation using a TFome-wide CRISPR knock-out library. Congrats to first authors @congyiliv and @chaodai (from our lab) and @ggaripler (from @estebanmazzoni lab). 👏👏👏
0
0
4
RT @Yilmaz_Ozdill: Asla unutturmayacağımız bir gün… 20 yıldır karşı devrimle mücadele eden Mustafa Kemal’in askeri İzmirlilere bugün, mutan….
0
3K
0
RT @vekilince: AKP artıkları, eski partilerindeki tek adam zihniyetini aynen Millet İttifakı'na taşımış görünüyorlar. Bu tipler hiçbir zama….
0
1K
0
RT @vekilince: Sayın Ali Babacan'ın hakkımda söylediği "Bizim eskiden de bir hukukumuz yok ki Sayın İnce'yle" sözü, sonuna kadar doğru. Ben….
0
3K
0
RT @Tamer_Onder: Holy grail of human reprogramming published @Nature : Chemical reprogramming of human somatic cells to pluripotent stem….
nature.com
Nature - Human somatic cells were reprogrammed to human chemically induced pluripotent stem cells that demonstrate key features of embryonic stem cells.
0
50
0
RT @Atilgan__Yilmaz: Analysis of haploinsufficiency in human embryonic stem cells with a unique system that allowed the generation of a gen….
cell.com
Sarel-Gallily et al. establish a heterozygous genome-wide loss-of-function CRISPR library for studying haploinsufficiency in human embryonic stem cells (hESCs) and discover over 600 essential...
0
6
0
RT @Tamer_Onder: We are looking to recruit a postdoctoral fellow to work on chromatin modifiers in reprogramming, induced pluripotent stem….
0
37
0
RT @EstebanMazzoni: Amazing work here providing a much needed tool by @WenjunK @morris_lab @ggaripler.
0
1
0
Super excited to share our latest publication @CellStemCell describing a new resource for measuring cell identity during differentiation and reprogramming! This great work is led by @WenjunK and @morris_lab. Congrats to all authors! @EstebanMazzoni.
Our latest paper is online @CellStemCell! Capybara: A computational tool to measure cell identity and fate transitions led by @WenjunK
1
3
19
RT @ESC_iPSC_News: Drs. Görkem Garipler (@ggaripler) and Congyi Lu (@congyilv) used a #CRISPR screen to identify ZBTB11 and ZFP131 as requi….
0
3
0
RT @mahonylab: This is really great work from @ggaripler and @congyilv, using a CRISPR screen against all TFs to find two new zinc-finger r….
0
3
0
RT @nevillesanjana: Congrats to @congyilv from our group and @ggaripler from @EstebanMazzoni lab on this new study that uses TFome-wide CRI….
0
4
0
RT @EstebanMazzoni: This is Finally out!.Beautiful work by @ggaripler with @nevillesanjana @mahonylab identifying a pair of TF that maintai….
cell.com
With a highly sensitive CRISPR loss-of-function screen targeting all TFs in the mouse and human genome, Garipler et al. show that ZBTB11 and ZFP131 TFs are required for embryonic stem cell pluripot...
0
12
0
Many thanks to our amazing collaborators @mahonylab for their analysis during identifying mechanisms of these TFs, @uwe_ohler & @lsofialz for their input on screen analysis, and to the rest of the team @YingzhenP @Anazenfiore @begum_aydin_ @SimonVidalV!.
1
1
6
RT @sudpinglay: Excited to share our preprint with @BulajicMilica @JefBoeke @EstebanMazzoni on applying our ability to build big pieces of….
biorxiv.org
Precise Hox gene expression is crucial for embryonic patterning. Intra- Hox transcription factor binding and distal enhancer elements have emerged as the major regulatory modes controlling Hox gene...
0
32
0
