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101.
102.
Alkaliphilic Bacillus sp. AH-101 was characterized in terms of physiological and biochemical characteristics, and 16S rDNA sequence homology and
DNA–DNA hybridization analyses were performed. Phylogenetic analysis of strain AH-101 based on comparison of 16S rDNA sequences
revealed that this strain is closely related to Bacillus halodurans. DNA–DNA hybridization of AH-101 and related Bacillus reference strains showed that the highest level of DNA–DNA relatedness (88%) was found between strain AH-101 and the B. halodurans type strain (DSM497). Our findings demonstrate that strain AH-101 is a member of the species B. halodurans.
Received: June 10, 1999 / Accepted: August 6, 1999 相似文献
103.
It is now well-established that compositional bias in DNA sequences can adversely affect phylogenetic analysis based on those
sequences. Phylogenetic analyses based on protein sequences are generally considered to be more reliable than those derived
from the corresponding DNA sequences because it is believed that the use of encoded protein sequences circumvents the problems
caused by nucleotide compositional biases in the DNA sequences. There exists, however, a correlation between AT/GC bias at
the nucleotide level and content of AT- and GC-rich codons and their corresponding amino acids. Consequently, protein sequences
can also be affected secondarily by nucleotide compositional bias. Here, we report that DNA bias not only may affect phylogenetic
analysis based on DNA sequences, but also drives a protein bias which may affect analyses based on protein sequences. We present
a striking example where common phylogenetic tools fail to recover the correct tree from complete animal mitochondrial protein-coding
sequences. The data set is very extensive, containing several thousand sites per sequence, and the incorrect phylogenetic
trees are statistically very well supported. Additionally, neither the use of the LogDet/paralinear transform nor removal
of positions in the protein alignment with AT- or GC-rich codons allowed recovery of the correct tree. Two taxa with a large
compositional bias continually group together in these analyses, despite a lack of close biological relatedness. We conclude
that even protein-based phylogenetic trees may be misleading, and we advise caution in phylogenetic reconstruction using protein
sequences, especially those that are compositionally biased.
Received: 19 February 1998 / Accepted: 28 August 1998 相似文献
104.
Molecular cloning and phylogenetic analysis of the small cytoplasmic RNA from Listeria monocytogenes
A molecular cloning strategy has been designed to isolate the gene that encodes the small cytoplasmic RNA (scRNA) component of bacterial signal recognition particles. Using this strategy a putative Listeria monocytogenes scRNA lambda gt11 recombinant clone was isolated. A previously described complementation assay developed to genetically select functional homologues of 4.5S RNA and scRNA of bacteria confirmed that the lambda gt11 recombinant clone isolated encoded for the scRNA from L. monocytogenes. A secondary structure for this scRNA is proposed and a phylogenetic comparison of the 276 base L. monocytogenes scRNA with previously characterised Gram-positive bacterial scRNAs is also presented. 相似文献
105.
A re-appraisal of the diversity of the methanogens associated with the rumen ciliates 总被引:7,自引:0,他引:7
Regensbogenova M McEwan NR Javorsky P Kisidayova S Michalowski T Newbold CJ Hackstein JH Pristas P 《FEMS microbiology letters》2004,238(2):307-313
The diversity of methanogenic archaea associated with different species of ciliated protozoa in the rumen was analysed. Partial fragments of archaeal SSU rRNA genes were amplified from DNA isolated from single cells from the rumen protozoal species Metadinium medium, Entodinium furca, Ophryoscolex caudatus and Diplodinium dentatum. Sequence analysis of these fragments indicated that although all of the new isolates clustered with sequences previously described for methanogens, there was a difference in the relative distribution of sequences detected here as compared to that of previous work. In addition, many of the novel sequences, although clearly of archaeal origin have relatively low identity to the sequences in database which are most closely related to them. 相似文献
106.
Varela ES Lima JP Galdino AS Pinto Lda S Bezerra WM Nunes EP Alves MA Grangeiro TB 《Phytochemistry》2004,65(1):59-69
The complete sequences of nuclear ribosomal DNA (nrDNA) internal transcribed spacer regions (ITS/5.8S) were determined for species belonging to six genera from the subtribe Diocleinae as well as for the anomalous genera Calopogonium and Pachyrhizus. Phylogenetic trees constructed by distance matrix, maximum parsimony and maximum likelihood methods showed that Calopogonium and Pachyrhizus were outside the clade Diocleinae (Canavalia, Camptosema, Cratylia, Dioclea, Cymbosema, and Galactia). This finding supports previous morphological, phytochemical, and molecular evidence that Calopogonium and Pachyrhizus do not belong to the subtribe Diocleinae. Within the true Diocleinae clade, the clustering of genera and species were congruent with morphology-based classifications, suggesting that ITS/5.8S sequences can provide enough informative sites to allow resolution below the genus level. This is the first evidence of the phylogeny of subtribe Diocleinae based on nuclear DNA sequences. 相似文献
107.
Phylogenetic relationships within mammalian order Carnivora indicated by sequences of two nuclear DNA genes 总被引:8,自引:0,他引:8
Phylogenetic relationships among 37 living species of order Carnivora spanning a relatively broad range of divergence times and taxonomic levels were examined using nuclear sequence data from exon 1 of the IRBP gene (approximately 1.3 kb) and first intron of the TTR gene (approximately 1 kb). These data were used to analyze carnivoran phylogeny at the family and generic level as well as the interspecific relationships within recently derived Felidae. Phylogenetic results using a combined IRBP+TTR dataset strongly supported within the superfamily Califormia, the red panda as the closest lineage to procyonid-mustelid (i.e., Musteloidea) clade followed by pinnipeds (Otariidae and Phocidae), Ursidae (including the giant panda), and Canidae. Four feliform families, namely the monophyletic Herpestidae, Hyaenidae, and Felidae, as well as the paraphyletic Viverridae were consistently recovered convincingly. The utilities of these two gene segments for the phylogenetic analyses were extensively explored and both were found to be fairly informative for higher-group associations within the order Carnivora, but not for those of low level divergence at the species level. Therefore, there is a need to find additional genetic markers with more rapid mutation rates that would be diagnostic at deciphering relatively recent relationships within the Carnivora. 相似文献
108.
Eukaryotic Nramp genes encode divalent metal ion permeases important for nutrition and resistance to microbial infection. Bacterial homologs encode proton-dependent transporters of manganese (MntH), and other divalent metal ions. Bacterial MntH were classified in three homology groups (A, B, C) and MntH C further subdivided in C, C, C. The proteins from C. tepidum (MntH B) and E. faecalis (MntH C1, 2), divergent in sequence and hydropathy profile, conferred increased metal sensitivity when expressed in E. coli, suggesting conservation of divalent metal transport function in MntH B and C. Several genomic evidence suggest horizontal gene transfer (HGT) of mntH C genes: (i) The enterobacteria Wigglesworthia
mntH C gene is linked to an Asn
t-RNA, and its sequence most conserved with Gram positive bacteria homologs; (ii) all the C genes identified in oral streptococcaceae are associated with different potentially mobile DNA elements; (iii) Lactococcus
lactis and Burkholderia
mallei genomes contain an mntH gene prematurely terminated and a novel full-length mntH C gene; (iv) remarkable sequence relatedness between the unicellular alga C. reinhardtii prototype Nramp and some MntH C (e.g., Nostoc spp., Listeria spp.) suggests HGT between Eukarya and Bacteria. Other prototype Nramp genes (intronless, encoding proteins strongly conserved with MntH A and B proteins) identified in invertebrates represent a possible source for transfer of Nramp genes toward opportunistic bacteria. This study demonstrates complex evolution of MntH in Bacteria. It is proposed that prototype Nramp are ancestors of bacterial MntH C proteins, which could facilitate bacterial infection.
Equally contributing authors (Etienne Richer and Pascal Courville). 相似文献
109.
110.