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Dr. Wen-Juan Ma | 马文娟
Dr. Wen-Juan Ma | 马文娟
@wenjuanma84
1 week ago
DBIO seminar on 'Why recombination hotspots'

DBIO seminar on 'Why recombination hotspots'

Excited to welcome Dr. Julien Joseph to our next DBIO Seminar at @vubrussel.bsky.social 👉

“Why recombination hotspots?”

📅 20 April
🕑 14:00–15:00
📍 F.5.66

All welcome — hope to see you there!

#recombination #evolution #evolutionarygenetics #prdm9 #crossover

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JoJaSciPo
JoJaSciPo
@strangetruther
3 months ago

Do we know what #PRDM9 does?

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Dr. Wen-Juan Ma | 马文娟
Dr. Wen-Juan Ma | 马文娟
@wenjuanma84
3 months ago

Re-read this #PRDM9 paper: striking evidence from salmonids that #PRDM9-driven #recombination hotspots are conserved across vertebrates, with rapid #hotspot #turnover driven by target erosion over hundreds of millions of years 🧬

Highly recommendation and a must read 👉

@academic-chatter.bsky.social

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PLOS Biology
PLOS Biology
@plosbiology.org
1 year ago
Top: pictures of Salmo salar and Oncorhynchus mykiss (credit: US Fish and Wildlife Service, public domain). Bottom: Structure of the identified PRDM9 alleles in S. salar PRDM9 α1.a.2 and O. mykiss PRDM9 α1.a.1. Colored boxes represent unique ZFs, characterized by the 3 amino acids in contact with DNA (3-letter code).

Top: pictures of Salmo salar and Oncorhynchus mykiss (credit: US Fish and Wildlife Service, public domain). Bottom: Structure of the identified PRDM9 alleles in S. salar PRDM9 α1.a.2 and O. mykiss PRDM9 α1.a.1. Colored boxes represent unique ZFs, characterized by the 3 amino acids in contact with DNA (3-letter code).

PRDM9 helps determine the location of recombination hotspots in many mammals. Study of salmonid fish reveals that #PRDM9 function is conserved across vertebrates, and this peculiar evolutionary runaway caused by PRDM9 has been active for 100s of millions of years🧪 @plosbiology.org plos.io/3DIvFCG

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PLOS Biology
PLOS Biology
@plosbiology.org
1 year ago
Top: pictures of Salmo salar and Oncorhynchus mykiss (credit: US Fish and Wildlife Service, public domain). Bottom: Structure of the identified PRDM9 alleles in S. salar PRDM9 α1.a.2 and O. mykiss PRDM9 α1.a.1. Colored boxes represent unique ZFs, characterized by the 3 amino acids in contact with DNA (3-letter code).

Top: pictures of Salmo salar and Oncorhynchus mykiss (credit: US Fish and Wildlife Service, public domain). Bottom: Structure of the identified PRDM9 alleles in S. salar PRDM9 α1.a.2 and O. mykiss PRDM9 α1.a.1. Colored boxes represent unique ZFs, characterized by the 3 amino acids in contact with DNA (3-letter code).

PRDM9 helps determine the location of recombination hotspots in many mammals. Study of salmonid fish reveals that #PRDM9 function is conserved across vertebrates, and this peculiar evolutionary runaway caused by PRDM9 has been active for 100s of millions of years🧪 @plosbiology.org plos.io/3DIvFCG

20 6 1 1
PLOS Biology
PLOS Biology
@plosbiology.org
1 year ago
Top: pictures of Salmo salar and Oncorhynchus mykiss (credit: US Fish and Wildlife Service, public domain). Bottom: Structure of the identified PRDM9 alleles in S. salar PRDM9 α1.a.2 and O. mykiss PRDM9 α1.a.1. Colored boxes represent unique ZFs, characterized by the 3 amino acids in contact with DNA (3-letter code).

Top: pictures of Salmo salar and Oncorhynchus mykiss (credit: US Fish and Wildlife Service, public domain). Bottom: Structure of the identified PRDM9 alleles in S. salar PRDM9 α1.a.2 and O. mykiss PRDM9 α1.a.1. Colored boxes represent unique ZFs, characterized by the 3 amino acids in contact with DNA (3-letter code).

PRDM9 helps determine the location of recombination hotspots in many mammals. Study of salmonid fish reveals that #PRDM9 function is conserved across vertebrates, and this peculiar evolutionary runaway caused by PRDM9 has been active for 100s of millions of years🧪 @plosbiology.org plos.io/3DIvFCG

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