- Kolchanova, Sofiia;
- Kliver, Sergei;
- Komissarov, Aleksei;
- Dobrinin, Pavel;
- Tamazian, Gaik;
- Grigorev, Kirill;
- Wolfsberger, Walter W;
- Majeske, Audrey J;
- Velez-Valentin, Jafet;
- de la Rosa, Ricardo Valentin;
- Paul-Murphy, Joanne R;
- Guzman, David Sanchez-Migallon;
- Court, Michael H;
- Rodriguez-Flores, Juan L;
- Martínez-Cruzado, Juan Carlos;
- Oleksyk, Taras K
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.