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Target Concepts:
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Query: UMLS:C0271276 (
Hudson
)
1,066
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previous studies [G. S.
Hudson
et al. (1989) J. Biol. Chem. 265, 808-814] showed that the faster turnover rates and lower affinities for CO2 of ribulosebisphosphate carboxylase/oxygenases from C4 plants, compared to C3 and C3/C4 plants, were specified by the chloroplast-encoded large subunits. In pairs of closely related C3 and C4 species from three genera, these kinetic changes were accompanied by only three to six amino acid residue substitutions, depending on the genus. None of these substitutions occurred near the active site and only one, 309Met (C3) to Ile (C4), was common to all three genera. Unlike the plant carboxylases, the highly homologous enzyme from the cyanobacterium Synechococcus PCC 6301 folds and assembles properly when its rbcL and rbcS genes are coexpressed in Escherichia coli. Furthermore, the cyanobacterial enzyme has Ile at position 309 of the large subunit, a high turnover number, and a poor affinity for CO2. 309Ile was replaced with Met and several other residues by site-directed mutagenesis of the cyanobacterial rbcL. Met and Leu were tolerated at this position with no alteration in the kinetic or structural properties of the assembled holoenzyme. However, substitution with Val,
Gly
, Trp, or Arg prevented the assembly of the subunits. The indifference to Met or Ile at this position, as well as the tolerance for Leu which is not observed with any natural ribulosebisphosphate carboxylase, leads to the conclusion that either the 309Met/Ile substitution has no effect on the kinetic properties of the plant enzyme, despite the correlation apparent in previous studies, or the cyanobacterial enzyme is sufficiently different from the plant enzyme in other respects that the influence of residue 309 is masked.
...
PMID:Effects of mutations at residue 309 of the large subunit of ribulosebisphosphate carboxylase from Synechococcus PCC 6301. 144 69
The chain origins of subunits M1, M2*, and M3 previously described (Butkowski, R. L., Wieslander, J., Wisdom, B.J., Barr, J.F., Noelken, M.E., and
Hudson
, B.G. (1985) J. Biol. Chem. 260, 3739-3747) of the globular domain of basement membrane collagen were identified, by amino-terminal amino acid sequence analysis, with respect to their relationship to the chains of collagen IV. M1 comprises two polypeptides which correspond to the noncollagenous segments (NC1) of the alpha 1 ad alpha 2 chains of collagen IV. M2*, containing the Goodpasture epitope, and M3 are distinct from these two constituents and from each other but have
Gly
-X-Y triplets and hydroxyproline at their amino terminus, reflecting the fact that each has a collagen chain origin. These results indicate the presence of two new collagen chains in basement membrane. These new chains appear to be integral components of collagen IV molecules. Alternatively, they could represent new molecular species of basement membrane collagen containing a globular domain, comprising M2* and M3, with physicochemical properties very similar to those of collagen IV.
...
PMID:Localization of the Goodpasture epitope to a novel chain of basement membrane collagen. 243 83
A field pot experiment was conducted to investigate the interactive phytotoxicity of soil Cu and Zn on soybean plants [
Glycine
max (L.) Merr.]. Two soils (Arkport sandy loam [coarse-loamy, mixed, active, mesic Lamellic Hapludalf] and
Hudson
silty clay loam [fine, illitic, mesic Glossaquic Hapludalf]) spiked with Cu, Zn, and combinations of both to reach the final soil metal range of 0 to 400 mg kg(-1) were tested in a 2-yr bioassay after 1 yr of soil-metal equilibration in the field. The soluble and easily-extractable fraction of soil Zn (or Cu), estimated by dilute CaCl2, increased linearly in response to the total Zn (or Cu) added. This linearity was, however, strongly affected where soils were treated with both metals in combination, most notably for Zn, as approximately 50% more of soil Zn was extracted into solution when the Cu level was high. Consequently, added Zn is less likely to be stabilized by aging than added Cu when both metals are present in field soils. The predictive model relating soil metal extractability to plant Zn concentration also revealed a significant Cu-Zn interaction. By contrast, the interaction between the two metals contributed little to explain plant Cu uptake. The additive action of soil Cu and Zn was of considerable importance in explaining plant biomass reduction. This work clearly demonstrates the critical roles of the properties of the soil, the nature of the metal, and the level of other toxic metals present on the development of differential phytotoxicity due to soil Cu and Zn.
...
PMID:Phytotoxic effects of Cu and Zn on soybeans grown in field-aged soils: their additive and interactive actions. 1987 81
