REVIEW: Species definition of procaryotes based on 16S rRNA and protein coding genes sequence
Until now it is complicated for demarcating species of prokaryotes. The 16S rRNA gene sequence provide phylogenetic basis for classification. It has been widely accepted that more than 97% similarity in 16S rRNA gene sequence is a species definition for prokaryotes. However, this criterion can not c...
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Online Access: | http://biodiversitas.mipa.uns.ac.id/D/D0703/D070319.pdf |
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doaj-f9477c00eac349b8bedeef3802f7928f2020-11-24T21:12:32ZengMBI & UNS SoloBiodiversitas1412-033X2085-47222006-07-0173292296REVIEW: Species definition of procaryotes based on 16S rRNA and protein coding genes sequenceARTINI PANGASTUTIUntil now it is complicated for demarcating species of prokaryotes. The 16S rRNA gene sequence provide phylogenetic basis for classification. It has been widely accepted that more than 97% similarity in 16S rRNA gene sequence is a species definition for prokaryotes. However, this criterion can not correspond to real ecological unit, thus can not reveal the functional diversity in nature. The interaction with the environment is defined at the level of functional genes, not 16S rRNA gene. Protein-coding genes sequence can be expected to disclose much previously unknown ecological population of prokaryotes. These are the genes that determine the role of the species. Sequence similarity in multiple protein-coding genes is recommended as a primary criterion for demarcating taxa. http://biodiversitas.mipa.uns.ac.id/D/D0703/D070319.pdfspecies definition16S rRNAprocaryotessystematics |
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DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
ARTINI PANGASTUTI |
spellingShingle |
ARTINI PANGASTUTI REVIEW: Species definition of procaryotes based on 16S rRNA and protein coding genes sequence Biodiversitas species definition 16S rRNA procaryotes systematics |
author_facet |
ARTINI PANGASTUTI |
author_sort |
ARTINI PANGASTUTI |
title |
REVIEW: Species definition of procaryotes based on 16S rRNA and protein coding genes sequence |
title_short |
REVIEW: Species definition of procaryotes based on 16S rRNA and protein coding genes sequence |
title_full |
REVIEW: Species definition of procaryotes based on 16S rRNA and protein coding genes sequence |
title_fullStr |
REVIEW: Species definition of procaryotes based on 16S rRNA and protein coding genes sequence |
title_full_unstemmed |
REVIEW: Species definition of procaryotes based on 16S rRNA and protein coding genes sequence |
title_sort |
review: species definition of procaryotes based on 16s rrna and protein coding genes sequence |
publisher |
MBI & UNS Solo |
series |
Biodiversitas |
issn |
1412-033X 2085-4722 |
publishDate |
2006-07-01 |
description |
Until now it is complicated for demarcating species of prokaryotes. The 16S rRNA gene sequence provide phylogenetic basis for classification. It has been widely accepted that more than 97% similarity in 16S rRNA gene sequence is a species definition for prokaryotes. However, this criterion can not correspond to real ecological unit, thus can not reveal the functional diversity in nature. The interaction with the environment is defined at the level of functional genes, not 16S rRNA gene. Protein-coding genes sequence can be expected to disclose much previously unknown ecological population of prokaryotes. These are the genes that determine the role of the species. Sequence similarity in multiple protein-coding genes is recommended as a primary criterion for demarcating taxa. |
topic |
species definition 16S rRNA procaryotes systematics |
url |
http://biodiversitas.mipa.uns.ac.id/D/D0703/D070319.pdf |
work_keys_str_mv |
AT artinipangastuti reviewspeciesdefinitionofprocaryotesbasedon16srrnaandproteincodinggenessequence |
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