Genome-wide and chromosomal microsatellite marker landscape analysis within the genus Crassostrea

Sahu, Basanta Pravas; Fazil, Mohamed Madhar; Panda, Subhasmita; Thiyagarajan, Vengatesen

doi:10.1101/2023.12.15.571666

Cited by 2 publications

References 69 publications

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Purifying selection and intraspecies recombination may drive the speciation in Crassostrea: evidence from complete mitochondria sequence ofCrassostrea hongkongensisand comparative genomic analysis

Sahu,

Fazil,

Panda

et al. 2024

Preprint

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Repeat dynamics and recombination play a crucial role during the evolution of the mitochondrial genome in plants and animals. However, this phenomenon has got less attention within Crassostrea, a complex marine species found worldwide having high commercial value as well as efficient carbon neutralizer. During this study, we characterized the whole mitochondrial genomes of C. hongkongensis retrieved from transcriptome data (GenBank acc. no. MZ073671). The current mitochondrial genome (18,616 bp) was composed of a non-coding control region (D-loop region), 2 ribosomal RNA (rRNA genes), 12 protein-coding genes (PCGs), and 23 transfer RNA (tRNA). Furthermore, comparative genomics analysis revealed that the present isolate is closely related to the Chinese isolate (NC_011518) with 99.82% similarity. Microsatellite analysis within the mitochondrial genome revealed its bias towards mononucleotide repeat A/T, di-nucleotide AG followed by AT and AC, trinucleotide AAT followed by AAG, ATC, and ATG. The recombination analysis deciphered the lack of interspecific recombination, but the presence of intraspecific recombination within ND1, ND2, and ND4L of Crassostrea species. Selection pressure analysis revealed the presence of purifying selection within maximum genes which drive the evolution of the species.

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Purifying selection and intraspecies recombination may drive the speciation in Crassostrea: evidence from complete mitochondria sequence ofCrassostrea hongkongensisand comparative genomic analysis

Sahu,

Fazil,

Panda

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

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Genome-Wide In Silico Analysis of Microsatellite Loci in Rabbits

Safaa,

Helal,

Yasser

et al. 2024

Animals

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This study aimed to characterize microsatellites in the rabbit genome using an in silico approach and to develop and validate microsatellite markers. Blood samples were collected from 15 Baladi rabbits and 18 New Zealand White (NZW rabbits). The GMATA software was used to define SSRs in the extracted sequences. Twelve primer pairs were used to validate the loci identified and the primers developed. The total number of the detected microsatellite loci overall chromosomes was 1,136,253. The di-nucleotide microsatellite repeats dominated and exceeded 88% of the detected microsatellites in all chromosomes. There were no microsatellites detected in mitochondrial DNA. The highest relative microsatellite abundance was obtained for chromosome 19, followed by 13 and 6. The highest estimated SSR density was obtained for chromosome 14, and the lowest was for mitochondrial DNA, followed by chromosome 13. The polymorphism was 81.63% and 75.51% for Baladi and NZW rabbits, respectively. The number of detected alleles ranged between two and seven alleles/loci, and polymorphic information content was from 35% to 71%. The AMOVA analysis showed that the total variance of all levels of population structure was 15.734. The results definitely confirmed higher genetic diversity in Baladi compared with NZW rabbits.

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Genome-wide and chromosomal microsatellite marker landscape analysis within the genus Crassostrea

Cited by 2 publications

References 69 publications

Purifying selection and intraspecies recombination may drive the speciation in Crassostrea: evidence from complete mitochondria sequence ofCrassostrea hongkongensisand comparative genomic analysis

Purifying selection and intraspecies recombination may drive the speciation in Crassostrea: evidence from complete mitochondria sequence ofCrassostrea hongkongensisand comparative genomic analysis

Genome-Wide In Silico Analysis of Microsatellite Loci in Rabbits

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