From: Charles Plessy Date: Wed, 28 Aug 2024 04:29:13 +0000 (+0900) Subject: Bravo Ferdi X-Git-Url: https://source.charles.plessy.org/?a=commitdiff_plain;h=813e2b567fcf8b701768b646b217940f29c76801;p=source.git Bravo Ferdi --- diff --git a/biblio/10.1101_2023.10.30.564762.mdwn b/biblio/10.1101_2023.10.30.564762.mdwn deleted file mode 100644 index 8146af0f..00000000 --- a/biblio/10.1101_2023.10.30.564762.mdwn +++ /dev/null @@ -1,10 +0,0 @@ -[[!meta title="The brittle star genome illuminates the genetic basis of animal appendage regeneration"]] -[[!tag synteny]] - -bioRxiv 2023.10.30.564762; doi:10.1101/2023.10.30.564762 - -Elise Parey, Olga Ortega-Martinez, Jérôme Delroisse, Laura Piovani, Anna Czarkwiani, David Dylus, Srishti Arya, Samuel Dupont, Michael Thorndyke, Tomas Larsson, Kerstin Johannesson, Katherine M. Buckley, Pedro Martinez, Paola Oliveri, Ferdinand Marlétaz - -The brittle star genome illuminates the genetic basis of animal appendage regeneration - -[[!doi 10.1101/2023.10.30.564762 desc="“We showed that the ‘Eleutherozoa Linkage Groups’ descend from a single fusion of ancestral bilaterian linkages (B2+C2).” “Interestingly, sea cucumbers have the lowest rate of inter-chromosomal rearrangements, yet the most derived echinoderm body plan (Rahman et al. 2019), which highlights the uncoupling of global genomic rearrangements from morphological evolution.” “In contrast with its sea star sister-group, the A. filiformis genome is highly rearranged: our analyses identified 26 inter-chromosomal rearrangements since the Eleutherozoa ancestor.”"]] diff --git a/biblio/39030276.mdwn b/biblio/39030276.mdwn new file mode 100644 index 00000000..1e9abffd --- /dev/null +++ b/biblio/39030276.mdwn @@ -0,0 +1,10 @@ +[[!meta title="The brittle star genome illuminates the genetic basis of animal appendage regeneration"]] +[[!tag synteny]] + +Nat Ecol Evol. 2024 Aug;8(8):1505-1521. doi:10.1038/s41559-024-02456-y + +Elise Parey, Olga Ortega-Martinez, Jérôme Delroisse, Laura Piovani, Anna Czarkwiani, David Dylus, Srishti Arya, Samuel Dupont, Michael Thorndyke, Tomas Larsson, Kerstin Johannesson, Katherine M. Buckley, Pedro Martinez, Paola Oliveri, Ferdinand Marlétaz + +The brittle star genome illuminates the genetic basis of animal appendage regeneration + +[[!pmid 39030276 desc="“We showed that the ‘Eleutherozoa Linkage Groups’ descend from a single fusion of ancestral bilaterian linkages (B2+C2).” “Interestingly, sea cucumbers have the lowest rate of inter-chromosomal rearrangements, yet the most derived echinoderm body plan (Rahman et al. 2019), which highlights the uncoupling of global genomic rearrangements from morphological evolution.” “In contrast with its sea star sister-group, the A. filiformis genome is highly rearranged: our analyses identified 26 inter-chromosomal rearrangements since the Eleutherozoa ancestor.”"]] diff --git a/tags/synteny.mdwn b/tags/synteny.mdwn index ae81b65c..1613dd3c 100644 --- a/tags/synteny.mdwn +++ b/tags/synteny.mdwn @@ -96,7 +96,7 @@ can be observed in fungi even when ITS sequences are 100% identical. that this happened by chromoanagenesis. - The Eleutherozoa Linkage Groups descend from a single fusion of ancestral - bilaterian linkages B2 and C2 ([[Parey and coll., 2023|biblio/10.1101_2023.10.30.564762]]). + bilaterian linkages B2 and C2 ([[Parey and coll., 2023|biblio/39030276]]). Some clades there scrambled a lot, and some not (sea cucumbers). - [[Wright and coll., 2024|biblio/38383850]] found 32 ALGs in lepidopteran,