Detection of soluble methane monooxygenase producing Methylosinus trichosporium OB3b by polymerase chain reaction

1994 ◽  
Vol 40 (11) ◽  
pp. 969-973 ◽  
Author(s):  
K. S. Mohan ◽  
Satish K. Walia
Keyword(s):  
Polymerase Chain Reaction ◽  
Dna Sequences ◽  
Methane Monooxygenase ◽  
Dna Fragments ◽  
Chain Reaction ◽  
Methylosinus Trichosporium Ob3b ◽  
Methylosinus Trichosporium ◽  
Soluble Methane Monooxygenase ◽  
Expected Length ◽  
Polymerase Chain

The soluble methane monooxygenase (sMMO) enzyme complex of methanotrophs cometabolizes haloaliphatic compounds such as trichloroethylene. Two 18-mer oligonucleotides as primary primers and a nested primer of the same length were selected to amplify specific DNA sequences of the sMMO gene cluster using polymerase chain reaction (PCR). Two DNA fragments of sizes 270 and 400 base pairs were obtained when purified DNA from the methanotroph Methylosinus trichosporium OB3b was used as template. The primers were specific for sMMO sequences of M. trichosporium, since none of the 13 bacterial isolates screened yielded the expected length of PCR-amplified DNA fragments. The detection limit of the PCR method was 5 × 102 cells of M. trichosporium. The sMMO sequences were successfully amplified in groundwater (containing native microbial population) when seeded with M. trichosporium, FP1 sense (5′-ATGTCCAGCGCTCATAAC-3′), RP1 antisense (5′-TCAGATGTCGGTCAGGGC-3′), FP2 sense nested (5′GCCATCATCGGTCAGGGC-3′), and FP2 sense nested (5′-GCCATCATCGAGGACATC-3′).Key words: detection, soluble methane monooxygenase, polymerase chain reaction, Methylosinus trichosporium OB3b.

Primers that amplify inserts in a multicloning site also hybridize to Sorghum bicolor DNA

Genome ◽  
1993 ◽  
Vol 36 (1) ◽  
pp. 198-201 ◽  
Author(s):  
G.-W. Xu ◽  
C. W. Magill ◽  
G. E. Hart
Keyword(s):  
Polymerase Chain Reaction ◽  
Sorghum Bicolor ◽  
Dna Sequences ◽  
Polymerase Chain Reaction Amplification ◽  
Segregation Ratio ◽  
High Signal ◽  
Dna Fragments ◽  
Chain Reaction ◽  
Hybridization Probes ◽  
Polymerase Chain

One or both members of a pair of primers developed to permit polymerase chain reaction amplification of sorghum DNA fragments cloned into the PstI site of pUC18 were shown to hybridize to sorghum DNA. The presence of the same primer sequences on the ends of amplified inserts posed a problem in using the amplified inserts as hybridization probes because the high signal level of the primer-detected DNA fragments often obscured the segregation patterns of the restriction fragments detected by the insert DNA. Conditions that favor annealing of the insert rather than the primers were experimentally defined, however, so that directly amplified DNA sequences could be used as RFLP probes. Cosegregation analysis of 51 F2 individuals from a cross between BTx 623 and IS 3620C established a linkage group containing the Pd1 locus. Alleles at the locus are revealed as codominant bands on Southern blots of heterozygotes, but the segregation ratio among the F2 progeny deviated significantly from the expected 1:2:1. The distortion favored the allele from parent BTx 623.Key words: polymerase chain reaction, restriction fragment length polymorphism, Sorghum bicolor, linkage mapping.

Using a Polymerase Chain Reaction as a Complementary Test to Improve the Detection of Dermatophyte Fungus in Nails

2014 ◽  
Vol 104 (3) ◽  
pp. 233-237 ◽  
Author(s):  
María José Iglesias Sánchez ◽  
Ana María Pérez Pico ◽  
Félix Marcos Tejedor ◽  
María Jesús Iglesias Sánchez ◽  
Raquel Mayordomo Acevedo
Keyword(s):  
Polymerase Chain Reaction ◽  
Dna Sequences ◽  
Classical Method ◽  
Clinical Manifestations ◽  
Culture Method ◽  
Clinical Samples ◽  
Chain Reaction ◽  
Nested Polymerase Chain Reaction ◽  
Traditional Procedure ◽  
Polymerase Chain

Background Dermatomycoses are a group of pathologic abnormalities frequently seen in clinical practice, and their prevalence has increased in recent decades. Diagnostic confirmation of mycotic infection in nails is essential because there are several pathologic conditions with similar clinical manifestations. The classical method for confirming the presence of fungus in nail is microbiological culture and the identification of morphological structures by microscopy. Methods We devised a nested polymerase chain reaction (PCR) that amplifies specific DNA sequences of dermatophyte fungus that is notably faster than the 3 to 4 weeks that the traditional procedure takes. We compared this new technique and the conventional plate culture method in 225 nail samples. The results were subjected to statistical analysis. Results We found concordance in 78.2% of the samples analyzed by the two methods and increased sensitivity when simultaneously using the two methods to analyze clinical samples. Now we can confirm the presence of dermatophyte fungus in most of the positive samples in just 24 hours, and we have to wait for the result of culture only in negative PCR cases. Conclusions Although this PCR cannot, at present, substitute for the traditional culture method in the detection of dermatophyte infection of the nails, it can be used as a complementary technique because its main advantage lies in the significant reduction of time used for diagnosis, in addition to higher sensitivity.

scholarly journals Methanobactin from Methylocystis sp. Strain SB2 Affects Gene Expression and Methane Monooxygenase Activity in Methylosinus trichosporium OB3b

2015 ◽  
Vol 81 (7) ◽  
pp. 2466-2473 ◽  
Author(s):  
Muhammad Farhan Ul-Haque ◽  
Bhagyalakshmi Kalidass ◽  
Alexey Vorobev ◽  
Bipin S. Baral ◽  
Alan A. DiSpirito ◽  
...  
Keyword(s):  
Gene Expression ◽  
Methane Monooxygenase ◽  
Particulate Methane Monooxygenase ◽  
Methylosinus Trichosporium Ob3b ◽  
Methylosinus Trichosporium ◽  
Monooxygenase Activity ◽  
Content Type ◽  
Soluble Methane Monooxygenase ◽  
A Subunit ◽  
Membrane Bound

ABSTRACTMethanotrophs can express a cytoplasmic (soluble) methane monooxygenase (sMMO) or membrane-bound (particulate) methane monooxygenase (pMMO). Expression of these MMOs is strongly regulated by the availability of copper. Many methanotrophs have been found to synthesize a novel compound, methanobactin (Mb), that is responsible for the uptake of copper, and methanobactin produced byMethylosinus trichosporiumOB3b plays a key role in controlling expression of MMO genes in this strain. As all known forms of methanobactin are structurally similar, it was hypothesized that methanobactin from one methanotroph may alter gene expression in another. WhenMethylosinus trichosporiumOB3b was grown in the presence of 1 μM CuCl2, expression ofmmoX, encoding a subunit of the hydroxylase component of sMMO, was very low.mmoXexpression increased, however, when methanobactin fromMethylocystissp. strain SB2 (SB2-Mb) was added, as did whole-cell sMMO activity, but there was no significant change in the amount of copper associated withM. trichosporiumOB3b. IfM. trichosporiumOB3b was grown in the absence of CuCl2, themmoXexpression level was high but decreased by several orders of magnitude if copper prebound to SB2-Mb (Cu-SB2-Mb) was added, and biomass-associated copper was increased. Exposure ofMethylosinus trichosporiumOB3b to SB2-Mb had no effect on expression ofmbnA, encoding the polypeptide precursor of methanobactin in either the presence or absence of CuCl2.mbnAexpression, however, was reduced when Cu-SB2-Mb was added in both the absence and presence of CuCl2. These data suggest that methanobactin acts as a general signaling molecule in methanotrophs and that methanobactin “piracy” may be commonplace.

Polymerase chain reaction based mapping of rye involving repeated DNA sequences

Genome ◽  
1992 ◽  
Vol 35 (4) ◽  
pp. 621-626 ◽  
Author(s):  
Peter M. Rogowsky ◽  
Ken W. Shepherd ◽  
Peter Langridge
Keyword(s):  
Polymerase Chain Reaction ◽  
Dna Sequences ◽  
Chromosome 1 ◽  
Repeated Dna ◽  
Chain Reaction ◽  
Pcr Marker ◽  
Banding Patterns ◽  
Repeated Dna Sequences ◽  
Cereal Rye ◽  
Polymerase Chain

A novel type of polymerase chain reaction (PCR) marker was developed for the mapping of cereal rye (Secale cereale). Primer pairs were synthesized targeting the insertion sites of three individual copies of the R173 family of rye specific repeated DNA sequences. While one primer was derived from a sequence within the respective R173 element, the second primer corresponded to a flanking region. The complex banding patterns obtained in rye allowed not only the mapping of the three R173 elements to certain chromosome regions of 1RS (the short arm of rye chromosome 1) but also the mapping of an additional 3–10 easily identifiable bands per primer pair to other rye chromosomes. Linkage mapping of a polymorphic 1R band derived from three rye cultivars demonstrated the presence of nonallelic, dominant markers in two independent crosses. Because of the high copy number of the R173 family (15 000 copies per diploid rye genome), its dispersion over the entire length of all chromosomes and the high number of markers obtained per primer pair, PCR markers based on the R173 family provide an almost unlimited source for well-spaced markers in rye mapping.Key words: polymerase chain reaction, mapping, repetitive DNA sequences, wheat, rye.

scholarly journals A method for mapping germ line sequences in Tetrahymena thermophila using the polymerase chain reaction.

Genetics ◽  
1994 ◽  
Vol 137 (1) ◽  
pp. 95-106 ◽  
Author(s):  
D Cassidy-Hanley ◽  
M C Yao ◽  
P J Bruns
Keyword(s):  
Polymerase Chain Reaction ◽  
Dna Sequences ◽  
Tetrahymena Thermophila ◽  
Germ Line ◽  
Repetitive Sequences ◽  
Mapping Technique ◽  
Ciliated Protozoan ◽  
Chain Reaction ◽  
Polymerase Chain ◽  
Template Dna

Abstract A method for mapping DNA sequences to specific germinal chromosomes in the ciliated protozoan Tetrahymena thermophila has been developed. This mapping technique (PCR mapping) utilizes the polymerase chain reaction and template DNA derived from nullisomic strains to directly assign micronuclear DNA sequences to specific micronuclear chromosomes. Using this technique, a number of unique sequences and short repetitive sequences flanked by unique sequences have been mapped to four of the five germinal chromosomes.

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