RT @vscooper: @CT_Bergstrom @theironark Hi Carl, I wrote about related ideas in this paper and in a following study in Archaea, w/multiple…
@CT_Bergstrom @theironark Hi Carl, I wrote about related ideas in this paper and in a following study in Archaea, w/multiple replication origins per replicon. TLDR: replication timing causes gene dosage biases and generates a gradient in the strength of se
@maf2371 You are on the right track. We all stand on the shoulders of our colleagues. Prelim preparation helps you see those shoulders better so that you find creative new niches to carve out in your career. Here's a fun paper from @vscooper https://t.co
RT @vscooper: @gibbological @conTaminatedsci @dallandrummond ha, just saw this thread and posted our own paper inspired by this one. https:…
@gibbological @conTaminatedsci @dallandrummond ha, just saw this thread and posted our own paper inspired by this one. https://t.co/3vMONxuHIY
@conTaminatedsci this is probably my favorite of ours: https://t.co/3vMONxuHIY
RT @vscooper: @WaldminghausLab @surt_lab @PMOrwin @biotweeps Really cool, congrats! We’ve been studying evolution of multi-chromosome bacte…
RT @vscooper: @WaldminghausLab @surt_lab @PMOrwin @biotweeps Really cool, congrats! We’ve been studying evolution of multi-chromosome bacte…
@WaldminghausLab @surt_lab @PMOrwin @biotweeps Really cool, congrats! We’ve been studying evolution of multi-chromosome bacteria for awhile bc of their broad implications e.g. https://t.co/3vMONxuHIY
RT @vscooper: @ctitusbrown @ErinSBecker @phylogenomics Umm, quite a few. https://t.co/D9kgXcXFhl and https://t.co/mARIq5oUtw to start?
RT @vscooper: @ctitusbrown @ErinSBecker @phylogenomics Umm, quite a few. https://t.co/D9kgXcXFhl and https://t.co/mARIq5oUtw to start?
RT @vscooper: @ctitusbrown @ErinSBecker @phylogenomics Umm, quite a few. https://t.co/D9kgXcXFhl and https://t.co/mARIq5oUtw to start?
@ctitusbrown @ErinSBecker @phylogenomics Umm, quite a few. https://t.co/D9kgXcXFhl and https://t.co/mARIq5oUtw to start?
RT @vscooper: @baym @PHumphreyT good one. And this influences positional variation in evolutionary rates as we described in https://t.co/UU…
RT @vscooper: @baym @PHumphreyT good one. And this influences positional variation in evolutionary rates as we described in https://t.co/UU…
RT @vscooper: @baym @PHumphreyT good one. And this influences positional variation in evolutionary rates as we described in https://t.co/UU…
@baym @PHumphreyT good one. And this influences positional variation in evolutionary rates as we described in https://t.co/UUDIbnc36j
RT @vscooper: Cool. Yet another reason Why Genes Evolve Faster on Secondary Chromosomes in Vibrio https://t.co/xA4d099uUo and https://t.co/…
RT @vscooper: Cool. Yet another reason Why Genes Evolve Faster on Secondary Chromosomes in Vibrio https://t.co/xA4d099uUo and https://t.co/…
RT @vscooper: Cool. Yet another reason Why Genes Evolve Faster on Secondary Chromosomes in Vibrio https://t.co/xA4d099uUo and https://t.co/…
RT @vscooper: Cool. Yet another reason Why Genes Evolve Faster on Secondary Chromosomes in Vibrio https://t.co/xA4d099uUo and https://t.co/…
Cool. Yet another reason Why Genes Evolve Faster on Secondary Chromosomes in Vibrio https://t.co/xA4d099uUo and https://t.co/J6sTs5F1Pr https://t.co/DrL9Db8INo
@ben_roller we should talk about this general prediction of ours re: rrn # and genome evolution based on https://t.co/D9kgXcXFhl. Tom knows
細菌の第二染色体は第一染色体よりも進化が速くコドンバイアスが弱い Why genes evolve faster on secondary chromosomes in bacteria. PLoS Comput Biol. 2010 http://t.co/HBreTLF3lN