Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.2.1.15 (
pectinase
)
2,440
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Erwinia chrysanthemi mutants (designated as pecS) displaying derepressed pectate lyase and cellulase synthesis were isolated. In addition, the pecS mutation is responsible for production of an extracellular insoluble blue pigment whose synthesis is
cryptic
in the wild-type 3937 strain. Transduction analysis indicates that the phenotype is due to a single mutation located near the xyl marker on the strain 3937 chromosome. This mutation was complemented by an R-prime plasmid carrying the xyl and argG genes of E. chrysanthemi, suggesting that the pecS product acts in trans to modulate
pectinase
, cellulase and blue pigment production. Insertion mutagenesis of the cloned region and recombination of the corresponding mutations in the bacterial chromosome by marker exchange revealed the existence of two divergently transcribed genes, pecS and pecM, that are both involved in the pectate lyase and cellulase regulation. The nucleotide sequences of pecS and pecM were determined. The pecS gene encodes a 166 amino acid polypeptide that shows similarity to the MprA regulatory protein of Escherichia coli whereas the pecM gene encodes a 297 amino acid polypeptide that was shown to be an integral membrane protein. The possible functions of the PecS and PecM proteins derived from the mutant phenotype and sequence analysis are discussed in terms of signal transduction and transcription regulation.
...
PMID:pecS: a locus controlling pectinase, cellulase and blue pigment production in Erwinia chrysanthemi. 802 82
Phialocephala fortinii s.1. and Acephala applanata are the dominant dark septate endophytes (DSE) in roots of many trees and shrubs. Population genetic analysis led to the discovery of morphologically indistinguishable but reproductively isolated
cryptic
species (CSP) within Phialocephala fortinii s.1. In the present study we show that sequence data of two coding (beta-tubulin and translation elongation factor [EF-lalpha]) and three noncoding DNA loci confirm subdivision of P. fortinii s.1. and allow to differentiate seven CSP of P. fortinii. In addition we show that strains collected throughout Europe can be classified correctly based on these sequence markers. Statistically significant differences in growth response on different media were observed among CSP of P. fortinii and A. applanata. Growth inhibition on MEA amended with 100 mgl(-1) cycloheximide had the strongest differential effect of all physiological traits examined. In contrast exoenzyme production (laccase, proteinase,
pectinase
, phenol-oxidase, amylase, cytochrome oxidase and tyrosinase) rarely helped to differentiate CSP of P. fortinii. However A. applanata was a strong producer of amylases, laccases and proteinases. Based on these data we propose to assign species rank to six CSP of P. fortinii: P. turiciensis, P. letzii, P. europaea, P. helvetica, P. uotolensis, P. subalpina spp. nov. and P. fortinii s.s.
...
PMID:Assignment of species rank to six reproductively isolated cryptic species of the Phialocephala fortinii s.1.-Acephala applanata species complex. 1848 52
