Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q9UID3 (FFR)
 233 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The contribution of the catalytic and noncatalytic domains of factor IXa to the interaction with its cofactor, factor VIIIa, was evaluated. Two proteolytic fragments of factor IXa, lacking some or all of the serine protease domain, failed to mimic the ability of factor IXa to enhance the reconstitution of factor VIIIa from isolated A1/A3-C1-C2 dimer and A2 subunit. Both fragments, however, inhibited this factor IXa-dependent activity. Selective thermal denaturation of the factor IXa serine protease domain eliminated its effect on factor VIIIa reconstitution. Modification of factor IXa with dansyl-Glu-Gly-Arg chloromethyl ketone (DEGR-IXa) stabilized this domain, and heat-treated DEGR-IXa retained its ability to enhance factor VIIIa reconstitution. These results indicate the importance of the serine protease domain as well as structures residing in the factor IXa light chain (gamma-carboxyglutamic acid and/or epidermal growth factor domains) for cofactor stabilizing activity. In the presence of phospholipid, the A1/A3-C1-C2 dimer produced a saturable increase in the fluorescence anisotropy of fluorescein-Phe-Phe-Arg chloromethyl ketone-modified factor IXa (Fl-FFR-IXa). This effect was inhibited by a factor IXa fragment comprised of the gamma-carboxyglutamic acid and epidermal growth factor domains. The difference in Fl-FFR-IXa anisotropy in the presence of A1/A3-C1-C2 dimer (delta r = 0.043) compared with factor VIIIa (delta r = 0.069) represented the contribution of the A2 subunit, A peptide corresponding to factor VIII A2 domain residues 558-565 decreased the factor VIIIa dependent-anisotropy of Fl-FFR-IXa to a value similar to that observed with the A1/A3-C1-C2 dimer. These results support a model of multiple interactive sites in the association of the enzyme-cofactor complex and localize sites for the A1/A3-C1-C2 dimer and the A2 subunit to the factor IXa light chain and serine protease domain, respectively.
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PMID:Localization of factor IXa and factor VIIIa interactive sites. 759 60

The suitability of five maturity group (MG) III and five MG IV soybean, Glycine max, cultivars as hosts for Meloidogyne incognita and M. arenaria was evaluated in a greenhouse. 'Forrest', a MG V cultivar, was used as the standard of comparison for M. incognita resistance. With M. incognita, root-gall and egg-mass indices and reproductive factors for 'Asgrow 3307', 'FFR 398', and 'Pioneer 9442' were comparable with those found on Forrest. Meloidogyne arenaria reproduction was lower (P </= 0.05) on 'Stevens' than on the other cultivars studied except 'TN4-86'. When grown in a field infested with M. incognita, the relative ranking of the cultivars was similar to the greenhouse results.
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PMID:Host Suitability of Soybean Cultivars for Meloidogyne incognita and M. arenaria. 1928 69

The use of genetically diverse resistance sources is important in breeding for durable disease resistance. Detection and evaluation of resistance genes by conventional inheritance experiments, however, often require laborious screening and genetic testing. In the present study, a marker-assisted screening for resistance sources was initiated in soybean [Glycine max (L.) Merr] using one DNA microsatellite and two RFLP markers tightly linked to a soybean mosaic virus (SMV) resistance gene (Rsv1). The three marker loci were used to screen 67 diverse soybean cultivars, breeding lines, and plant introductions. Five variants were found at the microsatellite locus (HSP176L), and the two RFLP loci (pA186 and pK644a) near Rsv1 show a remarkably higher level of restriction polymorphism than Rsv1-independent RFLP loci. Several specific variants at the three marker loci were found to be correlated with virus resistance, among which HSP176L-2 can be detected by PCR, thus may be useful for germplasm screening. The grouping of the 67 accessions according to their multilocus marker variants agrees with the available pedigree information. When all, or most, of the cultivars within a given group with the same Rsv1-linked marker variant are resistant, their SMV resistance is most likely conferred by Rsv1. These putatively Rsv1-carrying groups contain a total of 38 SMV-resistant lines including six differential cultivars that are known to carry Rsv1. The remaining seven resistant accessions (Columbia, Holladay, Peking, Virginia, FFR-471, PI 507403, and PI 556949) do not carry resistance marker variants, and at least some of them could be sources of resistance genes independent of Rsv1.
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PMID:Divergence and allelomorphic relationship of a soybean virus resistance gene based on tightly linked DNA microsatellite and RFLP markers. 2416 17