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71.
During the first 24 hr of soybean axis imbibition and growth, there is about a 25-fold increase in RNA polymerase activity associated with isolated nuclei. Within this same period, there is no increase in the amount of RNA polymerase I or II protein in soybean axes. There is no alteration in subunit structure of RNA polymerase II during germination and growth, with the possible exception of conversion of the 215,000 subunit to a 180,000 polypeptide, and no alteration in phosphorylation pattern of RNA polymerase II subunits. These results suggest that the rates of RNA synthesis during imbibition, germination, and growth of soybean axes are not regulated by altering the amount or subunit structure or by posttranslational modification of RNA polymerase II subunits. 相似文献
72.
73.
Identification of Arabidopsis histone deacetylase HDA6 mutants that affect transgene expression
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A mutant screen was conducted in Arabidopsis that was based on deregulated expression of auxin-responsive transgenes. Two different tightly regulated (i.e., very low expression in the absence of auxin treatment and very high expression after exogenous auxin treatment) auxin-responsive promoters were used to drive the expression of both a beta-glucuronidase (GUS) reporter gene and a hygromycin phosphotransferase (HPH)-selectable marker gene. This screen yielded several mutants, and five of the mutations (axe1-1 to axe1-5) mapped to the same locus on chromosome 5. A map-based cloning approach was used to locate the axe1 mutations in an Arabidopsis RPD3-like histone deacetylase gene, referred to as HDA6. The axe1 mutant plants displayed increased expression of the GUS and HPH transgenes in the absence of auxin treatment and increased auxin-inducible expression of the transgenes compared with nonmutant control plants. None of a variety of endogenous, natural auxin-inducible genes in the mutant plants were upregulated like the transgenes, however. Results of treatment with the DNA methylation inhibitor 5-aza-2'-deoxycytidine suggest that the axe1 mutations affect transgene silencing; however, histone deacetylase inhibitors had no affect on transgene silencing in mutant or control plants. The specific effect of AtHDA6 mutations on the auxin-responsive transgenes implicates this RPD3-like histone deacetylase as playing a role in transgene silencing. Furthermore, the effect of AtHDA6 on transgene silencing may be independent of its histone deacetylase activity. 相似文献
74.
75.
Arabidopsis thaliana contains at least four genes that are predicted to encode polypeptides related to the RPB5 subunit found in yeast and human RNA polymerase II. This subunit has been shown to be the largest subunit common to yeast RNA polymerases I, II, and III (RPABC27). More than one of these genes is expressed in Arabidopsis suspension culture cells, but only one of the encoded polypeptides is found in purified RNA polymerases II and III. This polypeptide has a predicted pI of 9.6, matches 14 of 16 amino acids in the amino terminus of cauliflower RPB5 that was microsequenced, and shows 42 and 53% amino acid sequence identity with the yeast and human RPB5 subunits, respectively. 相似文献
76.
77.
A protein kinase from wheat germ that phosphorylates the largest subunit of RNA polymerase II. 总被引:3,自引:0,他引:3
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T J Guilfoyle 《The Plant cell》1989,1(8):827-836
A protein kinase from wheat germ that phosphorylates the largest subunit of RNA polymerase IIA has been partially purified and characterized. The kinase has a native molecular weight of about 200 kilodaltons. This kinase utilizes Mg2+ and ATP and transfers about 20 phosphates to the heptapeptide repeats Pro-Thr-Ser-Pro-Ser-Tyr-Ser in the carboxyl-terminal domain of the 220-kilodalton subunit of soybean RNA polymerase II. This phosphorylation results in a mobility shift of the 220-kilodalton subunits of a variety of eukaryotic RNA polymerases to polypeptides ranging in size from greater than 220 kilodaltons to 240 kilodaltons on sodium dodecyl sulfate-polyacrylamide gels. The phosphorylation is highly specific to the heptapeptide repeats since a degraded subunit polypeptide of 180 kilodaltons that lacks the heptapeptide repeats is poorly phosphorylated. Synthetic heptapeptide repeat multimers inhibit the phosphorylation of the 220-kilodalton subunit. 相似文献
78.
Regulation of expression of an auxin-induced soybean sequence by cadmium 总被引:18,自引:0,他引:18
79.
Carbohydrate recognition by proteins is a key event in many biological
processes. Concanavalin A is known to specifically recognize the
pentasaccharide core (beta-GlcNAc-(1-->2)-alpha- Man-(1-->3)-[beta-
GlcNAc-(1-->2)-alpha-Man-(1-->6)]-Man) of N-linked oligosaccharides
with a Ka of 1.41 x 10(6 )M-1. We have determined the structure of
concanavalin A bound to beta-GlcNAc-(1-->2)-alpha-Man-(1-->3)-[beta-
GlcNAc-(1-->2)-alpha-Man- (1-->6)]-Man to 2.7A. In six of eight
subunits there is clear density for all five sugar residues and a well
ordered binding site. The pentasaccharide adopts the same conformation in
all eight subunits. The binding site is a continuous extended cleft on the
surface of the protein. Van der Waals interactions and hydrogen bonds
anchor the carbohydrate to the protein. Both GlcNAc residues contact the
protein. The GlcNAc on the 1-->6 arm of the pentasaccharide makes
particularly extensive contacts and including two hydrogen bonds. The
binding site of the 1-->3 arm GlcNAc is much less extensive.
Oligosaccharide recognition by Con A occurs through specific protein
carbohydrate interactions and does not require recruitment of adventitious
water molecules. The beta-GlcNAc-(1-->2)-Man glycosidic linkage PSI
torsion angle on the 1-->6 arm is rotated by over 50 degrees from that
observed in solution. This rotation is coupled to disruption of
interactions at the monosaccharide site. We suggest destabilization of the
monosaccharide site and the conformational strain reduces the free energy
liberated by additional interactions at the 1-->6 arm GlcNAc site.
相似文献
80.
Nuclei purified from cauliflower mosaic virus-infected turnip leaves contain subgenomic, covalently closed circular cauliflower mosaic virus DNAs 总被引:5,自引:2,他引:3
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Nuclei isolated from cauliflower mosaic virus (CaMV) infected turnip leaves contain subgenomic CaMV DNA species in addition to the genome length CaMV DNA. These subgenomic CaMV DNA species are present as covalently closed circles (form I), relaxed circles (form II) and linear (form III) molecules. The subgenomic form I DNA species range in size from about 10% of genome length to nearly genome length. These subgenomic DNA species appear in tissue infected with cloned CaMV DNA, indicating that they arise rapidly and have not accumulated in the virus population from serial propagation of CaMV. No specific region of the CaMV genome appears to be preferentially deleted to form the subgenomic CaMV DNA species. At least three distinct subgenomic species appear to accumulate preferentially in nuclei isolated from infected tissue. Two of these abundant subgenomic CaMV DNA species are form I and the other one is form III. Some of the subgenomic CaMV DNA species appear to be minichromosomes. 相似文献