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Feltens R,
Gossringer M,
Willkomm DK,
Urlaub H,
Hartmann RK,
( 2003 ) An unusual mechanism of bacterial gene expression revealed for the RNase P protein of Thermus strains. PMID : 12719542 : DOI : 10.1073/pnas.0931462100 PMC : PMC156268 Abstract >>
The RNase P protein gene (rnpA) completely overlaps the rpmH gene (encoding ribosomal protein L34) out of frame in the thermophilic bacterium Thermus thermophilus. This results in the synthesis of an extended RNase P protein (C5) of 163 aa and, by inference, of 240 aa in the related strain Thermus filiformis. Start codons of rnpA and rpmH, apparently governed by the same ribosome binding site, are separated by only 4 nt, which suggests a regulatory linkage between L34 and C5 translation and, accordingly, between ribosome and RNase P biosynthesis. Within the sequence encoding the N-terminal extensions and downstream of rpmH, several Thermus species exhibit in-frame deletionsinsertions, suggesting relaxed constraints for sequence conservation in this region. Roughly the N-terminal third of T. thermophilus C5 was further shown to be dispensable for RNase P function in vitro by using a precursor tRNA(Gly) substrate from the same organism. Taken together, these data reveal a mode of gene expression that is to our knowledge unprecedented in bacteria.
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Song HK,
Moon J,
Yang JK,
Chang C,
Lee JY,
( 2000 ) Crystal structure of NAD(+)-dependent DNA ligase: modular architecture and functional implications. PMID : 10698952 : DOI : 10.1093/emboj/19.5.1119 PMC : PMC305650 Abstract >>
DNA ligases catalyze the crucial step of joining the breaks in duplex DNA during DNA replication, repair and recombination, utilizing either ATP or NAD(+) as a cofactor. Despite the difference in cofactor specificity and limited overall sequence similarity, the two classes of DNA ligase share basically the same catalytic mechanism. In this study, the crystal structure of an NAD(+)-dependent DNA ligase from Thermus filiformis, a 667 residue multidomain protein, has been determined by the multiwavelength anomalous diffraction (MAD) method. It reveals highly modular architecture and a unique circular arrangement of its four distinct domains. It also provides clues for protein flexibility and DNA-binding sites. A model for the multidomain ligase action involving large conformational changes is proposed.
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Lapierre P,
Shial R,
Gogarten JP,
( 2006 ) Distribution of F- and A/V-type ATPases in Thermus scotoductus and other closely related species. PMID : 16423651 : DOI : 10.1016/j.syapm.2005.06.004 Abstract >>
The presence of an A/V-type ATPase in different Thermus species and in the deeper branching species Meiothermus ruber and Deinococcus radiodurans suggests that the presence of the archaeal-type ATPase is a primitive character of the Deinococci that was acquired through horizontal gene transfer (HGT). However, the presence of a bacterial type F-ATPases was reported in two newly identified Thermus species (Thermus scotoductus DSM 8553 and Thermus filiformis DSM 4687). Two different scenarios can explain this finding, either the recent replacement of the ancestral A/V-type ATPase in Thermus scotoductus and Thermus filiformis with a newly acquired F-type ATPase or a long-term persistence of both F and A type ATPase in the Deinococci, which would imply several independent losses of the F-type ATPase in the Deinococci. Using PCR with redundant primers, sequencing and Southern blot analyses, we tried to confirm the presence of an F-type ATPase in the genome of Thermus scotoductus and Thermus filiformis, and determine its phylogenetic affinities. Initial experiments appeared to confirm the presence of an F-type ATPase in Thermus scotoductus that was similar to the F-ATPases found in Bacillus. However, further experiments revealed that the detection of an F-ATPase was due to a culture contamination. For all the Thermus and Deinococcus species surveyed, including Thermus scotoductus, cultures that were free of contamination only contained an A/V-type ATP synthases.
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Jeon HJ,
Shin HJ,
Choi JJ,
Hoe HS,
Kim HK,
Suh SW,
Kwon ST,
( 2004 ) Mutational analyses of the thermostable NAD+-dependent DNA ligase from Thermus filiformis. PMID : 15268945 : DOI : 10.1016/j.femsle.2004.06.018 Abstract >>
The crystal structure of NAD+-dependent DNA ligase from Thermus filiformis (Tfi) revealed that the protein comprised four structural domains. In order to investigate the biochemical activities of these domains, seven deletion mutants were constructed from the Tfi DNA ligase. The mutants Tfi-M1 (residues 1-581), Tfi-M2 (residues 1-448), Tfi-M3 (residues 1-403) and Tfi-M4 (residues 1-314) showed the same adenylation activity as that of wild-type. This result indicates that only the adenylation domain (domain 1) is essential for the formation of enzyme-AMP complex. It was found that the zinc finger and helix-hairpin-helix (HhH) motif domain (domain 3) and the oligomer binding (OB)-fold domain (domain 2) are important for the formation of enzyme-DNA complex. The mutant Tfi-M1 alone showed the activities for in vitro nick-closing and in vivo complementation in Escherichia coli as those of wild-type. These results indicate that the BRCT domain (domain 4) of Tfi DNA ligase is not essential for the enzyme activity. The enzymatic properties of Tfi-M1 mutant (deleted the BRCT domain) were slightly different from those of wild-type and the nick-closing activity of Tfi-M1 mutant was approximately 50% compared with that of wild-type.
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Shandilya H,
Griffiths K,
Flynn EK,
Astatke M,
Shih PJ,
Lee JE,
Gerard GF,
Gibbs MD,
Bergquist PL,
( 2004 ) Thermophilic bacterial DNA polymerases with reverse-transcriptase activity. PMID : 15197605 : DOI : 10.1007/s00792-004-0384-5 Abstract >>
Conserved motifs found in known bacterial polI DNA polymerase sequences were identified, and degenerate PCR primers were designed for PCR amplification of an internal portion of polI genes from all bacterial divisions. We describe here a method that has allowed the rapid identification and isolation of 13 polI genes from a diverse selection of thermophilic bacteria and report on the biochemical characteristics of nine of the purified recombinant enzymes. Several enzymes showed significant reverse-transcriptase activity in the presence of Mg2+, particularly the polymerases from Bacillus caldolyticus EA1, Caldibacillus cellovorans CompA.2, and Clostridium stercorarium.
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( 2013 ) The characterization of a thermostable and cambialistic superoxide dismutase from Thermus filiformis. PMID : 23530753 : DOI : 10.1111/lam.12071 Abstract >>
The superoxide dismutase (TfSOD) gene from the extremely thermophilic bacterium Thermus filiformis was cloned and expressed at high levels in mesophilic host. The purified enzyme displayed approximately 25 kDa band in the SDS-PAGE, which was further confirmed as TfSOD by mass spectrometry. The TfSOD was characterized as a cambialistic enzyme once it had enzymatic activity with either manganese or iron as cofactor. TfSOD showed thermostability at 65, 70 and 80�XC. The amount of enzyme required to inhibit 50% of pyrogallol autoxidation was 0�P41, 0�P56 and 13�P73 mg at 65, 70 and 80�XC, respectively. According to the circular dichroism (CD) spectra data, the secondary structure was progressively lost after increasing the temperature above 70�XC. The 3-dimensional model of TfSOD with the predicted cofactor binding corroborated with functional and CD analysis. This manuscript describes the expression and characterization of a superoxide dismutase (SOD) from Thermus filiformis with thermophilic and cambialistic characteristics. The SODs are among the most potent antioxidants known in nature, and their stability and pharmacokinetics can vary widely in accordance to their biological source. Although the currently clinical research work has been focused on human and bovine SODs, alternative sources may become more biotechnological attractive in the near future. Our study brings new insights for the research field of antioxidant enzymes with potential application on pharmaceutical, cosmetics and food formulations.
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( 1999 ) Biochemical properties of a high fidelity DNA ligase from Thermus species AK16D. PMID : 9889274 : DOI : 10.1093/nar/27.3.788 PMC : PMC148248 Abstract >>
NAD+-dependent DNA ligases from thermophilic bacteria Thermus species are highly homologous with amino acid sequence identities ranging from 85 to 98%. Thermus species AK16D ligase, the most divergent of the seven Thermus isolates collected worldwide, was cloned, expressed in Escherichia coli and purified to homogeneity. This Thermus ligase is similar to Thermus thermophilus HB8 ligase with respect to pH, salt, NAD+, divalent cation profiles and steady-state kinetics.However, the former is more discriminative toward T/G mismatches at the 3'-side of the ligation junction, as judged by the ratios of initial ligation rates of matched and mismatched substrates. The two wild-type Thermus ligases and a Tth ligase mutant (K294R) demonstrate 1-2 orders of magnitude higher fidelity than viral T4 DNA ligase. Both Thermus ligases are active with either the metal cofactor Mg2+, Mn2+or Ca2+but not with Co2+, Ni2+, Cu2+or Zn2+. While the nick closure step with Ca2+becomes rate-limiting which results in the accumulation of DNA-adenylate intermediate, Ni2+only supports intermediate formation to a limited extent. Both Thermus ligases exhibit enhanced mismatch ligation when Mn2+is substituted for Mg2+, but the Tsp. AK16D ligase remains more specific toward perfectly matched substrate.
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( 1998 ) Cloning, nucleotide sequence, and expression of the DNA ligase-encoding gene from Thermus filiformis. PMID : 9749531 : Abstract >>
The gene encoding Thermus filiformis (Tfi) DNA ligase was cloned and its nucleotide sequence was determined by the chain-termination method. The primary structure of Tfi DNA ligase was deduced from its nucleotide sequence. The Tfi DNA ligase comprises of 667 amino acid residues and its molecular mass was determined to be 75,936 Da. The deduced amino acid sequence of Tfi DNA ligase showed a 86.5% homology to Tth DNA ligase and 43.5% to E. coli DNA ligase. The Lys-116 of Lys-Val-Asp-Gly motif was proposed to be the active residue of Tfi DNA ligase. In comparison with the amino acid composition of DNA ligase, Tfi DNA ligase showed a significant increase in the proportion of charged residues, Arg and Glu, compared to E. coli DNA ligase. The G + C content in the first, second, and third positions of the codons used were 70.3%, 40.3%, and 90.3%, respectively. Codon usage in Tfi DNA ligase was heavily biased towards the use of G + C in the third position. Under tac promoter control, Tfi DNA ligase was overproduced to greater than 9% of E. coli BL26Blue cellular proteins.
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( 1997 ) Cloning and analysis of the DNA polymerase-encoding gene from Thermus filiformis. PMID : 9509419 : Abstract >>
The gene encoding Thermus filiformis (Tfi) DNA polymerase was cloned and its nucleotide sequence was determined. The primary structure of Tfi DNA polymerase was deduced from its nucleotide sequence. Tfi DNA polymerase is comprised of 833 amino acid residues and its molecular mass was determined to be 93,890 Da. The deduced amino acid sequence of Tfi DNA polymerase showed a high sequence homology to E. coli DNA polymerase I-like DNA polymerases: 78.5% homology to Taq DNA polymerase, 78.4% to Tca DNA polymerase, and 41.8% to E. coli DNA polymerase I. An extremely high sequence identity was observed in the region containing polymerase activity. The G + C content of the coding region for the Tfi DNA polymerase gene was 68.5%, which was higher than that of the chromosomal DNA (65%). The G + C contents in the first, second, and third positions of the codons used were 71.8%, 40.9%, and 92.7% respectively. Codon usage in Tfi DNA polymerase was heavily biased towards the use of G + C in the third position. Rare codons with U or A as the third base were sometimes used to avoid using GA(A/T) TC and TCGA sequences, as they are recognition sites for the restriction endonucleases TfiI and TaqI.
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