AI Article Synopsis

  • This study focuses on a native European crayfish species, highlighting its commercial significance in fisheries and aquaculture.
  • Researchers conducted genomic analysis, revealing that about 54.85% of the crayfish genome is composed of repetitive DNA, particularly satellite DNA, which is the highest known diversity in any genome so far.
  • The findings include the first karyogram of the crayfish with detailed chromosome composition and the role of satellite repeats in driving genomic evolution.

Article Abstract

is a native European crayfish species found in both freshwater and brackish environments. It has commercial importance for fisheries and aquaculture industries. Up till now, most studies concerning have focused onto gaining knowledge about its phylogeny and population genetics. However, little is known about the chromosomal evolution and genome organization of this species. Therefore, we performed clustering analysis of a low coverage genomic dataset to identify and characterize repetitive DNA in the genome. In addition, the karyogram of (2 = 180) is presented here for the first time consisting of 75 metacentric, 14 submetacentric, and a submetacentric/metacentric heteromorphic chromosome pair. We determined the genome size to be at ~18.7 gigabase pairs. Repetitive DNA represents about 54.85% of the genome. Satellite DNA repeats are the most abundant type of repetitive DNA, making up to ~28% of the total amount of repetitive elements, followed by the Ty3/ retroelements (~15%). Our study established a surprisingly high diversity of satellite repeats in . The genome of is by far the most satellite-rich genome discovered to date with 258 satellite families described. Of the five mapped satellite DNA families on chromosomes, PlSAT3-411 co-localizes with the AT-rich DAPI positive probable (peri)centromeric heterochromatin on all chromosomes, while PlSAT14-79 co-localizes with the AT-rich DAPI positive (peri)centromeric heterochromatin on one chromosome and is also located subterminally and intercalary on some chromosomes. PlSAT1-21 is located intercalary in the vicinity of the (peri)centromeric heterochromatin on some chromosomes, while PlSAT6-70 and PlSAT7-134 are located intercalary on some chromosomes. The FISH results reveal amplification of interstitial telomeric repeats (ITRs) in . The prevalence of repetitive elements, especially the satellite DNA repeats, may have provided a driving force for the evolution of the genome.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7859515PMC
http://dx.doi.org/10.3389/fgene.2020.611745DOI Listing

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