BLASTing Breaking News!
Probably to support their genomic data, researchers in Andrew Roger's group in Canada have performed transcriptomic analysis of the Nand II strain, which belongs to Blastocystis sp. ST1.
Running from April 29 to May 2 is the SMBE (Society for Molecular Biology and Evolution) satellite meeting on Eukaryotic-Omics; the abstract booklet can be downloaded here. And fellow tweeps, don't let yourselves down by not following #SMBEeuks!
Until now, we've only known of one complete Blastocystis nuclear genome, namely that of ST7. Now, the release of the ST1 genome may be imminent! In any case, Roger's group have used their transcriptomic data to compare the protein content in ST1 with that in ST7, and it appears from their conference abstract that "the genes encoded by the Nand II strain (ST1) are surprisingly distantly related to ST7 orthologues, sharing on average ~50% identity at the protein level." And more: "Preliminary analyses allowed us to detect ~1000 genes in ST1 that have no homologue in Blastocystis sp. ST7". This means that the extreme genetic diversity that we see across the SSU ribosomal RNA genes is reflected and may be even more pronounced at nuclear genome level.
Probably to support their genomic data, researchers in Andrew Roger's group in Canada have performed transcriptomic analysis of the Nand II strain, which belongs to Blastocystis sp. ST1.
Running from April 29 to May 2 is the SMBE (Society for Molecular Biology and Evolution) satellite meeting on Eukaryotic-Omics; the abstract booklet can be downloaded here. And fellow tweeps, don't let yourselves down by not following #SMBEeuks!
Watching #SMBEeuks tweets ticking in from @druvus @dr_bik and @ctitusbrown feels like attending the actual conference - without the jet lag!
— Chr. Rune Stensvold (@Eukaryotes) April 29, 2013
Until now, we've only known of one complete Blastocystis nuclear genome, namely that of ST7. Now, the release of the ST1 genome may be imminent! In any case, Roger's group have used their transcriptomic data to compare the protein content in ST1 with that in ST7, and it appears from their conference abstract that "the genes encoded by the Nand II strain (ST1) are surprisingly distantly related to ST7 orthologues, sharing on average ~50% identity at the protein level." And more: "Preliminary analyses allowed us to detect ~1000 genes in ST1 that have no homologue in Blastocystis sp. ST7". This means that the extreme genetic diversity that we see across the SSU ribosomal RNA genes is reflected and may be even more pronounced at nuclear genome level.
The group also studied genes acquired by lateral gene transfer (LGT; see previous post for more on LGT, also known as horizontal gene transfer), and what they basically found was that ST1 appears to have acquired bacterial genes related mainly to metabolism, while genes acquired from eukaryotes code for proteins related to cellular processes and signaling mechanisms.
Finally, they have discovered genes obtained by LGT that has had importance for Blastocystis' adaptation to parasitism; among these genes that enable resistance to host immune responses.
Roger's group is based at the Dept. of Biochemistry and Molecular Biology, Dalhouise University, Halifax, Nova Scotia in Canada.