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Amoebozoa-specific genes as potential DNA barcodes to study environmental diversity of amoebae. / Bondarenko, N.; Bondarenko, A.; Smirnov, A.

VII ECOP - ISOP Joint Meeting. 2015. p. 246.

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Bondarenko, N, Bondarenko, A & Smirnov, A 2015, Amoebozoa-specific genes as potential DNA barcodes to study environmental diversity of amoebae. in VII ECOP - ISOP Joint Meeting. pp. 246, VII European Congress of Protistology, Sevilla, Spain, 4/09/15. <http://viiecop.com/>

APA

Bondarenko, N., Bondarenko, A., & Smirnov, A. (2015). Amoebozoa-specific genes as potential DNA barcodes to study environmental diversity of amoebae. In VII ECOP - ISOP Joint Meeting (pp. 246) http://viiecop.com/

Vancouver

Bondarenko N, Bondarenko A, Smirnov A. Amoebozoa-specific genes as potential DNA barcodes to study environmental diversity of amoebae. In VII ECOP - ISOP Joint Meeting. 2015. p. 246

Author

Bondarenko, N. ; Bondarenko, A. ; Smirnov, A. / Amoebozoa-specific genes as potential DNA barcodes to study environmental diversity of amoebae. VII ECOP - ISOP Joint Meeting. 2015. pp. 246

BibTeX

@inproceedings{d3d1c1c990f2448c878971d9b10555f3,
title = "Amoebozoa-specific genes as potential DNA barcodes to study environmental diversity of amoebae",
abstract = "Implication of metagenomic approaches show that the amount of unexplored diversity in the environmental appears to be enormous, providing a background to the term “the dark matter of life”. Amoebozoa are among the groups that are numerous in all kinds of habitats, but rarely represent more than several percent of the total number of sequences when routine DNA barcodes (SSU gene, Cox I gene) are used to study environmental diversity. To explore cryptic diversity of Amoebozoa in the natural habitats we attempted to find Amoebozoa-specific genes and gene families for future application as a DNA barcodes in environmental studies. For this we analyze the transcriptomes of 11 Amoebozoa species represented in MMETSP database (marinemicroeukaryotes.org). We assembled them de novo using Velvet assembler based on de Bruijn graphs optimization algorithm. The preliminary assemblies at the output of Velvet were forwarded to Oases transcriptome assembler. To evaluate quality of transcriptome assemblies we used both QUAST",
keywords = "протистология, филогения, разнообразие",
author = "N. Bondarenko and A. Bondarenko and A. Smirnov",
year = "2015",
language = "English",
pages = "246",
booktitle = "VII ECOP - ISOP Joint Meeting",
note = "VII European Congress of Protistology ; Conference date: 04-09-2015 Through 09-09-2015",
url = "http://eukref.org/event/vii-european-congress-of-protistology/",

}

RIS

TY - GEN

T1 - Amoebozoa-specific genes as potential DNA barcodes to study environmental diversity of amoebae

AU - Bondarenko, N.

AU - Bondarenko, A.

AU - Smirnov, A.

PY - 2015

Y1 - 2015

N2 - Implication of metagenomic approaches show that the amount of unexplored diversity in the environmental appears to be enormous, providing a background to the term “the dark matter of life”. Amoebozoa are among the groups that are numerous in all kinds of habitats, but rarely represent more than several percent of the total number of sequences when routine DNA barcodes (SSU gene, Cox I gene) are used to study environmental diversity. To explore cryptic diversity of Amoebozoa in the natural habitats we attempted to find Amoebozoa-specific genes and gene families for future application as a DNA barcodes in environmental studies. For this we analyze the transcriptomes of 11 Amoebozoa species represented in MMETSP database (marinemicroeukaryotes.org). We assembled them de novo using Velvet assembler based on de Bruijn graphs optimization algorithm. The preliminary assemblies at the output of Velvet were forwarded to Oases transcriptome assembler. To evaluate quality of transcriptome assemblies we used both QUAST

AB - Implication of metagenomic approaches show that the amount of unexplored diversity in the environmental appears to be enormous, providing a background to the term “the dark matter of life”. Amoebozoa are among the groups that are numerous in all kinds of habitats, but rarely represent more than several percent of the total number of sequences when routine DNA barcodes (SSU gene, Cox I gene) are used to study environmental diversity. To explore cryptic diversity of Amoebozoa in the natural habitats we attempted to find Amoebozoa-specific genes and gene families for future application as a DNA barcodes in environmental studies. For this we analyze the transcriptomes of 11 Amoebozoa species represented in MMETSP database (marinemicroeukaryotes.org). We assembled them de novo using Velvet assembler based on de Bruijn graphs optimization algorithm. The preliminary assemblies at the output of Velvet were forwarded to Oases transcriptome assembler. To evaluate quality of transcriptome assemblies we used both QUAST

KW - протистология

KW - филогения

KW - разнообразие

M3 - Conference contribution

SP - 246

BT - VII ECOP - ISOP Joint Meeting

T2 - VII European Congress of Protistology

Y2 - 4 September 2015 through 9 September 2015

ER -

ID: 9282499