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91.
92.
93.
F. R. Murray J. H. Skerritt R. Appels 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2001,102(2-3):431-439
A genomic DNA clone coding for a rye secalin gene (gSec2A) was isolated from a wheat translocation line carrying the 2RS.2BL
chromosome, using a previously identified partial secalin (Sec2) cDNA clone as a probe. The predicted N-terminal amino-acid
sequence of the gSec2A gene was identical to the N-terminal sequence obtained for Sec2 polypeptide bands isolated from SDS-PAGE
gels. Bacterially expressed gSec2A protein was identical in size to that of the smallest Sec2 polypeptide band observed on
SDS PAGE gels and is recognized by a monoclonal antibody specific for Mr 75000 2RS γ-secalins. Overall, the predicted protein
sequence of gSec2A was most similar (50%) to the family of γ-gliadins and consists of a short N-terminal region containing
one cysteine residue followed by a glutamine/proline-rich repetitive domain and a long C-terminal domain containing eight
cysteine residues. The repetitive domain can be divided into two regions. One region coded for 15 units, each consisting of
eight amino acids similar in sequence to that found in the ω-secalins and C-hordeins. The second region coded for 17 units
each consisting of a sequence of 7–10 amino acids similar to that observed in γ-gliadins.
Received: 31 February 2000 / Accepted: 21 May 2000 相似文献
94.
The microtubular element of the plant cytoskeleton undergoes dramatic architectural changes in the course of the cell cycle, specifically at the entry into and exit from mitosis. These changes underlie the acquisition of specialized properties and functions involved, for example, in the equal segregation of chromosomes and the correct positioning and formation of the new cell wall. Here we review some of the molecular mechanisms by which the dynamics and the organization of microtubules are regulated and suggest how these mechanisms may be under the control of cell cycle events. 相似文献
95.
Dronina MA Revina LP Kostina LI Ganushkina LA Zalunin IA Chestukhina GG 《Biochemistry. Biokhimii?a》2006,71(2):133-139
Proteins of 65 and 57 kD were isolated from the apical membranes of midgut epithelium of Anopheles stephensi larvae by affinity chromatography. These proteins can specifically bind endotoxin Cry11A and activate toxin Cry4B (Cry4B-tox) under conditions of ligand blotting, and both Cry proteins compete for this binding. At least in the case of Cry4B-tox, the binding with 65 and 57 kD proteins is reversible. The ability of the products of limited proteolysis of Cry11A and Cry4B to bind the 65 and 57 kD proteins correlates with their toxicity to A. stephensi larva. The N-terminal amino acid sequence of the 57 kD protein is unique and absent in the NCBI GenBank. The proteins of 65 and 57 kD share most of the properties studied with Aedes aegypti toxin-binding proteins. It is possible that they altogether represent a novel class (or classes) of delta-endotoxin receptors. 相似文献
96.
Paul A. M. Michels 《Journal of molecular evolution》1986,24(1-2):45-52
Summary The genes for four glycolytic enzymes ofTrypanosoma brucei have been analyzed. The proteins encoded by these genes show 38–57% identity with their counterparts in other organisms, whether pro- or eukaryotic. These data are consistent with a phylogenetic tree in which trypanosomes diverged very early from the main branch of the eukaryotic lineage. No definite conclusion can be drawn yet about the evolutionary origin of glycosomes, the microbodies of trypanosomes which contain most enzymes of the glycolytic pathway. A bias could be observed in the codon usage of the glycolytic genes and genes for other housekeeping proteins, indicating that trypanosomes may have selected a nucleotide sequence that enables efficient translation. However, the genes for variant surface glycoproteins (VSGs) do not show such a bias. This lack of preference for special codons is explained by the high evolutionary rate that could be observed for VSG genes.Presented at the FEBS Symposium on Genome Organization and Evolution, held in Crete, Greece, September 1–5, 1986 相似文献
97.
Those amazing dinoflagellate chromosomes 总被引:2,自引:0,他引:2
Rizzo PJ 《Cell research》2003,13(4):215-217
Dinoflagellates are a very large and diverse group of eukaryotic algae that play a major role in aquaticfood webs of both fresh water and marine habitats. Moreover, the toxic members of this group posea health threat in the form of red tides. Finally, dinoflagellates are of great evolutionary importance,because of their taxonomic position, and their unusual chromosome structure and composition. While the cytoplasm of dinoflagellates is typically eukaryotic, the nucleus is unique when compared to the nucleusof other eukaryotes. More specifically, while the chromosomes of all other eukaryotes contain histones,dinoflagellate chromosomes lack histones completely. There are no known exceptions to this observation: all dinoflagellates lack histones, and all other eukaryotes contain histones. Nevertheless, dinoflagellates remain a relatively unstudied group of eukaryotes. 相似文献
98.
The cysteine and glycine-rich protein 1 and 2 genes (CSRP1 and CSRP2) are an effective growth factor in promoting skeletal muscle growth in vitro and vivo. However, in cattle, the information on the CSRP1 and CSRP2 genes is very limited. The aim of this study was to examine the association of the CSRP1 and CSRP2 variants with growth and carcass traits in cattle breeds. Three single nucleotide variants (SNVs) were identified within the bovine CSRP1 gene, whereas CSRP2 gene has not detected any SNVs, using DNA pooled sequencing, PCR-RFLP, and forced PCR-RFLP methods. These SNVs include g. 801T>C (Intron 2), g. 46T>C (Exon 3) and g. 99C>G (Intron 3). Besides, we also investigated haplotype frequencies and linkage disequilibrium (LD) coefficients for three SNVs in all study populations. LD and haplotype structure of CSRP1 were different between breeds. The result of haplotype analysis demonstrated eight haplotype present in QC (Qinchuan) and one haplotype in CH (Chinese Holstein). Only haplotype 1 (TTC), shared by all two populations, comprised 10.74% and 100.00%, of all haplotypes observed in QC and CH, respectively. Haplotype 5 (CTC) had the highest haplotype frequencies in QC (30.98%) and haplotype 1 had the highest haplotype frequencies in CH (100.00%). The statistical analyses indicated that one single SNV and 19 combined haplotypes were significantly or highly significantly associated with growth and carcass traits in the QC cattle population (P < 0.05 or P < 0.01). Quantitative real-time PCR (qRT-PCR) analyses showed that the bovine CSRP1 and CSRP2 genes were widely expressed in many tissues. The results of this study suggest that the CSRP1 gene possibly is a strong candidate gene that affects growth and carcass traits in the Chinese beef cattle breeding. 相似文献
99.
Seema Sharma Haiyan Zheng Yuanpeng J. Huang Asli Ertekin Yoshitomo Hamuro Paolo Rossi Roberto Tejero Thomas B. Acton Rong Xiao Mei Jiang Li Zhao Li‐Chung Ma G. V. T. Swapna James M. Aramini Gaetano T. Montelione 《Proteins》2009,76(4):882-894
Disordered or unstructured regions of proteins, while often very important biologically, can pose significant challenges for resonance assignment and three‐dimensional structure determination of the ordered regions of proteins by NMR methods. In this article, we demonstrate the application of 1H/2H exchange mass spectrometry (DXMS) for the rapid identification of disordered segments of proteins and design of protein constructs that are more suitable for structural analysis by NMR. In this benchmark study, DXMS is applied to five NMR protein targets chosen from the Northeast Structural Genomics project. These data were then used to design optimized constructs for three partially disordered proteins. Truncated proteins obtained by deletion of disordered N‐ and C‐terminal tails were evaluated using 1H‐15N HSQC and 1H‐15N heteronuclear NOE NMR experiments to assess their structural integrity. These constructs provide significantly improved NMR spectra, with minimal structural perturbations to the ordered regions of the protein structure. As a representative example, we compare the solution structures of the full length and DXMS‐based truncated construct for a 77‐residue partially disordered DUF896 family protein YnzC from Bacillus subtilis, where deletion of the disordered residues (ca. 40% of the protein) does not affect the native structure. In addition, we demonstrate that throughput of the DXMS process can be increased by analyzing mixtures of up to four proteins without reducing the sequence coverage for each protein. Our results demonstrate that DXMS can serve as a central component of a process for optimizing protein constructs for NMR structure determination. Proteins 2009. © 2009 Wiley‐Liss, Inc. 相似文献
100.
The recent discovery of DNA sequences responsible for the specific attachment of chromosomal DNA to the nuclear skeleton (MARs/SARs) was an important step towards our understanding of the functional and structural organization of eukaryotic chromatin [Mirkovitch et al.: Cell 44:273-282, 1984; Cockerill and Garrard: Cell 44:273-282, 1986]. A most important question, however, remains the nature of the matrix proteins involved in the specific binding of the MARs. It has been shown that topoisomerase II and histone H1 were capable of a specific interaction with SARs by the formation of precipitable complexes [Adachi et al.: EMBO J8:3997-4006, 1989; Izaurralde et al.: J Mol Biol 210:573-585, 1989]. Here, applying a different approach, we were able to "visualize" some of the skeletal proteins recognizing and specifically binding MAR-sequences. It is shown that the major matrix proteins are practically the same in both salt- and LIS-extracted matrices. However, the relative MAR-binding activity of the individual protein components may be different, depending on the method of matrix preparation. The immunological approach applied here allowed us to identify some of the individual MAR-binding matrix proteins. Histone H1 and nuclear actin are shown to be not only important components of the matrix, but to be involved in a highly efficient interaction with MAR-sequences as well. Evidence is presented that proteins recognized by the anti-HMG antibodies also participate in MAR-interactions. 相似文献