Patterns of sequence variation in two regions of the 16S rRNA multigene family of Escherichia coli

Citation
Aj. Martinez-murcia et al., Patterns of sequence variation in two regions of the 16S rRNA multigene family of Escherichia coli, INT J SY B, 49, 1999, pp. 601-610
Citations number
52
Categorie Soggetti
Microbiology
Journal title
INTERNATIONAL JOURNAL OF SYSTEMATIC BACTERIOLOGY
ISSN journal
00207713 → ACNP
Volume
49
Year of publication
1999
Part
2
Pages
601 - 610
Database
ISI
SICI code
0020-7713(199904)49:<601:POSVIT>2.0.ZU;2-F
Abstract
Sequence heterogeneities of variable positions located at regions V1 and V6 of 56 cloned 16S rRNA genes were determined from six Escherichia coli stra ins, These nucleotides were involved in secondary structure base-pairing of stem-loops. Compensatory and single mutations have occurred but secondary structure was conserved. Eight different sequences were found in the stem a t region V1 indicating that in these sites mutation rates are higher than t hose of homogenization processes. Region V6 showed two different structures (V6-I and V6-II) although heterogeneities were determined in nine sites. S trains ECOR52 and ECOR56 only showed the V6-I sequence, ECOR35 showed V6-II , whereas clones from ECOR42 and ECOR49 showed both types of V6 structures. Results were confirmed by PCR using V6 sequence-specific probes. Stem V6-I I was also found in 16S rRNA sequences deposited in the RDP (Ribosomal Data base Project) belonging to distantly related taxa; ancestral sequence V6-II seems to be homogenized in all rm operons of the multigene family of strai n ECOR35 producing effects of distortion in the molecular clock, similar to those that homoplasies could produce. V6 sequence-specific probes were app lied to the 72 ECOR strains: half showed both V6-I and V6-II, and the rest had one or another. Only strain ECOR24 did not yield products in the PCR te st and sequencing of 12 cloned 16S rRNA genes revealed a third form, V6-III , also found in the RDP, Concerted evolution by homogenization of the rRNA family may induce chronometric distortions responsible for a loss of ultram etricity in phylogenetic trees, particularly, of very closely related micro -organisms.