Congrats @sandberglab! Creative use of single cell RNAseq to address fundamentals of transcription.
RT @KRKtechnol: Genomic encoding of transcriptional burst kinetics | Nature https://t.co/eiSaIsjyCX
RT @Magda_Skipper: Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affec…
RT @Magda_Skipper: Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affec…
RT @HjerlingLeffler: Cool work from @sandberglab! https://t.co/YkzvHLuHKT
Cool work from @sandberglab!
Genomic encoding of transcriptional burst kinetics | Nature https://t.co/R3qObd193T
RT @Magda_Skipper: Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affec…
RT @Magda_Skipper: Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affec…
RT @Magda_Skipper: Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affec…
Great work from @AntonJohnAnton! Allele-specific single-cell RNA sequencing used to infer burst size and burst frequency transcription kinetics. https://t.co/5uFpT2KjU7
RT @Magda_Skipper: Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affec…
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RT @NatureGenet: Online @nature Genomic encoding of transcriptional burst kinetics https://t.co/WLkGRwetXB https://t.co/Ld97JSZEJE
RT @KRKtechnol: Genomic encoding of transcriptional burst kinetics | Nature https://t.co/eiSaIsjyCX
RT @loops_enhancers: Genomic encoding of transcriptional burst kinetics https://t.co/p4Bw2L86qd
RT @TheWebbLab: Important new insight into how transcriptional bursting is regulated in mammals! Promoter elements regulate burst size wher…
RT @Magda_Skipper: Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affec…
RT @Magda_Skipper: Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affec…
Genomic encoding of transcriptional burst kinetics | Nature https://t.co/eiSaIsjyCX
Allele-specific single-cell RNA sequencing provides insights into transcription kinetics - core promoter sequences affect burst size, whereas enhancers mainly affect burst frequency https://t.co/5BVxVDajLM @nature
RT @NatureGenet: Online @nature Genomic encoding of transcriptional burst kinetics https://t.co/WLkGRwetXB https://t.co/Ld97JSZEJE
RT @NatureGenet: Online @nature Genomic encoding of transcriptional burst kinetics https://t.co/WLkGRwetXB https://t.co/Ld97JSZEJE
Online @nature Genomic encoding of transcriptional burst kinetics https://t.co/WLkGRwetXB https://t.co/Ld97JSZEJE
Allele-specific single-cell RNA sequencing provides insights into transcription kinetics. #neuroscience #brain #neuron #scRNAseq #transcriptome #transcriptomekinetics https://t.co/YJudsUIdkG
@stevemunger @CoxLabJAX @cr_farber @loyalgoff Here’s a new one that argues allelic bursting is independent. https://t.co/TfsxAcO66T
Genomic encoding of transcriptional burst kinetics https://t.co/p4Bw2L86qd
RT @TheWebbLab: Important new insight into how transcriptional bursting is regulated in mammals! Promoter elements regulate burst size wher…
RT @ChiragNepal: We show that core promoter elements affect burst size and uncover synergistic effects between TATA and initiator elements…
RT @TheWebbLab: Important new insight into how transcriptional bursting is regulated in mammals! Promoter elements regulate burst size wher…
RT @TheWebbLab: Important new insight into how transcriptional bursting is regulated in mammals! Promoter elements regulate burst size wher…
Important new insight into how transcriptional bursting is regulated in mammals! Promoter elements regulate burst size whereas enhancers regulate burst frequency. @karolinskainst @nature https://t.co/v5gLkLLY9J
Fantastic work on genome-wide transcriptional kinetics by @AntonJohnAnton @sandberglab! It's a must read: https://t.co/DQhtyJ3bia
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
Genomic encoding of transcriptional burst kinetics https://t.co/bBqUQlPQmk
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
”Certain DNA sequences located at the beginning of a gene can influence how much RNA is produced in a burst" https://t.co/bAibC9ra1K via @cision Genomic encoding of transcriptional burst kinetics https://t.co/TuXDVB6B5G
https://t.co/oYMZ5nDSVZ @karolinskainst @sandberglab
RT @ChiragNepal: We show that core promoter elements affect burst size and uncover synergistic effects between TATA and initiator elements…
Genomic encoding of transcriptional burst kinetics: https://t.co/fihl61PFaw https://t.co/hzkUCsrOBZ
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @ChiragNepal: We show that core promoter elements affect burst size and uncover synergistic effects between TATA and initiator elements…
RT @ChiragNepal: We show that core promoter elements affect burst size and uncover synergistic effects between TATA and initiator elements…
Genomic encoding of transcriptional burst kinetics https://t.co/CvtLMkaygC https://t.co/XpiFYQym5o
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
#Genomic encoding of transcriptional burst #kinetics: https://t.co/Jcmuo6DlQq
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @ChiragNepal: We show that core promoter elements affect burst size and uncover synergistic effects between TATA and initiator elements…
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
We show that core promoter elements affect burst size and uncover synergistic effects between TATA and initiator elements, which were masked at mean expression levels.
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
#Genomic #encoding of transcriptional #burst kinetics https://t.co/2aS0qT79ST
Genomic encoding of transcriptional burst kinetics https://t.co/u7vrmYhYax
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
RT @notSoJunkDNA: Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
Genomic encoding of transcriptional burst kinetics https://t.co/4a6zv9HO2P https://t.co/4qQKHisbbm
Genomic encoding of transcriptional burst kinetics https://t.co/c4tGyNDL1s
Genomic encoding of transcriptional burst kinetics https://t.co/THOIL8lvBB