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:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The strain Streptomyces globisporus 1912 and its derivative mutants 3-1 high and deficient producers of landomycin E and B1, accordingly, formed, when grown on the minimum and soy media, isoflavones which after the extraction and purification by thin layer chromatography were identified as daidzein and genistein on the basis of Rf indices and maxima of absorption in UV light identical to standard isoflavones. Mutant, B2, defective in biosynthesis of antibiotic, did not produce the above isoflavones and restored the synthesis of landomycin E under action of genistein introduced to the medium or secreted by the B1 culture in the cosynthesis test. Daidzein did not restore biosynthesis of antibiotic by this mutant. The cosynthesis test was used for preliminary selection of Streptomyces strains producing genistein. It was shown that 10% of 200 fresh isolated soil Spreptomycetes produced daidzein and genistein. The synthesis of isoflavones by streptomycetes can take place de novo on the minimum medium or by means of
beta-galactosidase
hydrolysis of the corresponding soy glycosides on soy medium.
Genistein
increased the production of polyketide antibiotics landomycines A and E, tetracenomycin and chlortetracycline by 11-42% and repressed the synthesis of urdamycin by 15%.
...
PMID:[Synthesis of daidzein and genistein by streptomycetes and their effect on production of antibiotics]. 1601 12
Four compounds exuded from young roots of a black-seeded bean (Phaseolus vulgaris L., cv PI165426CS) induce transcription of nod genes in Rhizobium leguminosarum biovar phaseoli. The three most active nod gene inducers were identified by spectroscopic methods (ultraviolet/visible absorbance, proton nuclear magnetic resonance, and mass spectrometry) as being eriodictyol (5,7,3',4' -tetrahydroxyflavanone), naringenin (5,7,4' -trihydroxyflavanone), and a 7-O-glycoside of genistein (5,7,4' -trihydroxyisoflavone). Comparisons with authentic standards verified the chemical structures of the aglycones and their capacity to induce
beta-galactosidase
activity in R. leguminosarum strains containing nodA-lacZ or nodC-lacZ fusions controlled by R. leguminosarum biovar phaseoli nodD genes. Roots of 9-day-old seedlings released 42, 281, and 337 nanomoles per plant per day of genistein, eriodictyol, and naringenin, respectively.
Genistein
and naringenin induced higher maximum
beta-galactosidase
activities and required lower concentrations for half-maximum induction than eriodictyol. Comparing the nod gene-inducing activity of seed rinses with root exudate from PI165426CS bean showed that root flavonoids were released at about 6% the rate of those from seeds on a molar basis, but on average the individual compounds from roots were approximately three times more active than nod gene inducers from seeds.
...
PMID:Rhizobium nod Gene Inducers Exuded Naturally from Roots of Common Bean (Phaseolus vulgaris L.). 1666 63
Genistein
, the main isoflavone in soy, has received considerable attention for its potential anti-carcinogenic properties. In a previous report, we investigated the possible role of genistein in anti-mutagenesis, using an Escherichia coli reversion assay system.
Genistein
reduced ENU-induced mutagenesis in a dose-dependent manner and the reduction of mutation frequency was differential among several categories of mutation. Most notable was a loss of transversion mutations, which require SOS functions. In this report, we further investigated the anti-mutagenic effect of genistein using a genetic approach. E. coli strains having alterations in genes involved in SOS-mutagenesis were examined, as were strains having defects in proteins that might serve as potential targets for genistein. The results showed that ENU-induced mutations produced in recA730 and lexA(Def) strains, both expressing a constitutive SOS response, were reduced by genistein to a lesser extent than in the wild-type strain. The effect of genistein was not entirely abolished, however. ENU mutagenesis in a umuC derivative, which reflects predominantly transition mutations, was unaffected by genistein. ENU-induced mutations in strains having defects in topA, gyrA, typA or uspA were not different than the wild-type, suggesting that these gene products were not involved in genistein's anti-mutagenic effect. In addition, we determined the distribution of genistein in various cellular fractions using HPLC. These studies revealed that genistein could be recovered from E. coli cells grown on agar media containing genistein; the intracellular concentration was similar to that in the agar plates. Further, most of the genistein recovered was associated with proteins in the cytosolic fraction and little partitioned in the membrane fraction. In vitro studies showed that genistein could be precipitated from a protein (BSA) containing solution. Finally, we examined the effect of genistein on formation of the RecA filament on ssDNA in vitro and observed an inhibition at high concentrations of genistein. In total, these results suggested that genistein may reduce SOS-dependent mutagenesis by reducing the interaction of RecA protein with ssDNA. As a consequence, genistein could cause a reduction in (1) the overall SOS response (confirmed using
beta-galactosidase
assays) and (2) trans-lesion DNA synthesis by DNA polymerase V.
...
PMID:Genetic analysis of the anti-mutagenic effect of genistein in Escherichia coli. 1687 40
Jasmonates are signaling molecules involved in induced systemic resistance, wounding and stress responses of plants. We have previously demonstrated that jasmonates can induce nod genes of Bradyrhizobium japonicum when measured by
beta-galactosidase
activity. In order to test whether jasmonates can effectively induce the production and secretion of Nod factors (lipo-chitooligosaccharides, LCOs) from B. japonicum, we induced two B. japonicum strains, 532C and USDA3, with jasmonic acid (JA), methyl jasmonate (MeJA) and genistein (Ge). As genistein is well characterized as an inducer of nod genes it was used a positive control. The high-performance liquid chromatography (HPLC) profile of LCOs isolated following treatment with jasmonates or genistein showed that both JA and MeJA effectively induced nod genes and caused production of LCOs from bacterial cultures. JA and MeJA are more efficacious inducers of LCO production than genistein.
Genistein
plus JA or MeJA resulted in greater LCO production than either alone. A soybean root hair deformation assay showed that jasmonate induced LCOs were as effective as those induced by genistein. This is the first report that jasmonates induce Nod factor production by B. japonicum. This report establishes the role of jasmonates as a new class of signaling molecules in the Bradyrhizobium-soybean symbiosis.
...
PMID:Jasmonates induce Nod factor production by Bradyrhizobium japonicum. 1710 14
