Klumpy: A tool to evaluate the integrity of long‐read genome assemblies and illusive sequence motifs

Madrigal, Giovanni; Minhas, Bushra Fazal; Catchen, Julian

doi:10.1111/1755-0998.13982

Cited by 2 publications

References 99 publications

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The genome of the cryopelagic Antarctic bald notothen, Trematomus borchgrevinki

Rayamajhi,

Rivera-Colón,

Minhas

et al. 2024

G3: Genes, Genomes, Genetics

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The Antarctic bald notothen, Trematomus borchgrevinki (family Nototheniidae) occupies a high latitude, ice-laden environment and represents an extreme example of cold-specialization among fishes. We present the first, high quality, chromosome-scale genome of a female T. borchgrevinki individual comprised of 23 putative chromosomes, the largest of which is 65 megabasepairs (Mbp) in length. The total length of the genome 935.13 Mbp, composed of 2,094 scaffolds, with a scaffold N50 of 42.67 Mbp. Annotation yielded 22,192 protein coding genes while 54.75% of the genome was occupied by repetitive elements; an analysis of repeats demonstrated that an expansion occurred in recent time. Conserved synteny analysis revealed that the genome architecture of T. borchgrevinki is largely maintained with other members of the notothenioid clade, although several significant translocations and inversions are present, including the fusion of orthologous chromosomes 8 and 11 into a single element. This genome will serve as a cold-specialized model for comparisons to other members of the notothenioid adaptive radiation.

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The genome of the cryopelagic Antarctic bald notothen, Trematomus borchgrevinki

Rayamajhi,

Rivera-Colón,

Minhas

et al. 2024

G3: Genes, Genomes, Genetics

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Common Ancestry of theIdLocus: Chromosomal Rearrangement and Polygenic Possibilities

Sharma,

Vijay

2023

Preprint

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The diversity of dermal pigmentation and plumage color in domestic chickens is intriguing. Black bone chickens (BBC) stand out with their intense melanin hyperpigmentation, driven by a complex chromosomal rearrangement on chromosome 20, specifically the Fm locus, causing overexpression of the EDN3 gene. In contrast, dermal pigmentation inhibition is regulated by the sex-linked Id locus. Previous studies have used crosses, GWAS and gene expression analysis to identify the genetic basis of the Id locus, but the puzzle remains unsolved. Our study seeks to precisely locate the Id locus, identify gene(s) inhibiting dermal pigmentation, and explore its ancestral state in BBC breeds. We analyzed public data from 270 chickens (42 BBC and 228 non-BBC) to refine the position of the Id locus to a ~1.6 Mb region between Z amplicon repeats on the distal end of q-arm and found that it shares a common ancestry among all BBC breeds, much like the Fm locus. The selection signatures and high fixation levels within MTAP, CCDC112 and a few other genes within this region support multiple candidates. Our results suggest that the Id locus is shared among BBC breeds and may have a polygenic nature, explaining the shank and dermal pigmentation variation.

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Klumpy: A tool to evaluate the integrity of long‐read genome assemblies and illusive sequence motifs

Cited by 2 publications

References 99 publications

The genome of the cryopelagic Antarctic bald notothen, Trematomus borchgrevinki

The genome of the cryopelagic Antarctic bald notothen, Trematomus borchgrevinki

Common Ancestry of theIdLocus: Chromosomal Rearrangement and Polygenic Possibilities

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