Aleksei S. Komissarov scite author profile

Islands have been used as model systems for studies of speciation and extinction since Darwin published his observations about finches found on the Galapagos. Amazon parrots inhabiting the Greater Antillean Islands represent a fascinating model of species diversification. Unfortunately, many of these birds are threatened as a result of human activity and some, like the Puerto Rican parrot, are now critically endangered. In this study we used a combination of de novo and reference-assisted assembly methods, integrating it with information obtained from related genomes to perform genome reconstruction of three amazon species. First, we used whole genome sequencing data to generate a new de novo genome assembly for the Puerto Rican parrot (Amazona vittata). We then improved the obtained assembly using transcriptome data from Amazona ventralis and used the resulting sequences as a reference to assemble the genomes Hispaniolan (A. ventralis) and Cuban (Amazona leucocephala) parrots. Finally, we, annotated genes and repetitive elements, estimated genome sizes and current levels of heterozygosity, built models of demographic history and provided interpretation of our findings in the context of parrot evolution in the Caribbean.

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LINE-related component of mouse heterochromatin and complex chromocenters’ composition

Kuznetsova

Ostromyshenskii

Komissarov

et al. 2016

Chromosome Res

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Chromocenters are interphase nuclear landmark structures of constitutive heterochromatin. The tandem repeat (TR)-enriched parts of different chromosomes cluster together in chromocenters. There has been progress in recent years in determining the protein content of chromocenters, although it is not clear which DNA sequences underly constitutive heterochromatin apart from the TRs. The aim of the current work was to find out which DNA sequences besides TRs are involved in chromocenters' formation. Biochemically isolated chromocenters and microdissected centromeric regions were amplified by DOP-PCR, then cloned and sequenced. Alignment to Repbase, the mouse reference genome and WGS databases separated the sequences from both libraries into three groups: (1) sequences with similarity to pericentromere mouse major satellite; (2) sequences without similarity to any repetitive sequences; (3) sequences with similarity to long interspersed nuclear elements (LINEs). LINE-related sequences have a disperse pattern distribution on chromosomes predicted in silico. Selected clones were used for fluorescent in situ hybridization (FISH). The 10 clones tested hybridized to chromocenters and centromeric regions of metaphase chromosomes. These clones were used for double FISH with four known cloned TRs (satDNA, satellite DNA) and a probe specific for the sex chromosomes. The probes bind various chromocenters' regions without overlapping; so, FISH results reveal a complex chromocenter composition. We mapped 18 LINE-derived clones to the RepBase L1 records. Most of them grouped in a ∼2-kb region at the end of the second ORF and 3' untranslated region (UTR). So, even the limited number of the clones allows us to determine the region of the L1 element that is specific for heterochromatic regions. Although the L1 full-length probe did not hybridize at detectable levels to the heterochromatic region on any chromosome, the 2-kb fragment found is definitely a part of these regions. The precise LINE ∼2-kb fragment is the component of mouse and human constitutive heterochromatin enriched with TRs. The method used for amplification of the probes from two sources of the heterochromatic material uncovered the enrichment of a precise fragment of LINE within chromocenters.

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Mouse centromeric tandem repeats in silico and in situ

2010

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