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331.
332.
Background
Impairment of cilia and flagella function underlies a growing number of human genetic diseases. Mutations in hydin in hy3 mice cause lethal communicating hydrocephalus with early onset. Hydin was recently identified as an axonemal protein; however, its function is as yet unknown. 相似文献333.
N. Laila Huq Keith J. Cross Men Ung Helen Myroforidis Paul D. Veith Dina Chen David Stanton Huiling He Brent R. Ward Eric C. Reynolds 《International journal of peptide research and therapeutics》2007,13(4):547-564
Saliva is a glandular secretion that is vital in the maintenance of healthy oral tissues. In this review we outline the high abundance salivary proteins, summarise the status of the salivary proteome and peptidome, the genetic origin and recognised functions of these proteins, the diseases associated with salivary disorders, and the emerging saliva-derived peptide therapeutics. Different proteomic approaches have reported the identification of over 1,300 proteins in saliva. However there are fewer than 100 high abundance proteins, identified by multiple methods including, two-dimensional polyacrylamide gel electrophoresis and HPLC combined with mass spectrometry. Analysis of the genes coding for the salivary proteins demonstrated a non-uniform chromosomal distribution with chromosome 4 having the largest proportion of genes expressed in salivary glands. Several diseases are associated with salivary disorders including Sjögren’s syndrome, Prader-Willi syndrome, dental caries and stress related disorders. Saliva as a diagnostic medium for various biochemical tests has provided a non-invasive and accessibility advantage over other more regularly tested body fluids such as blood and urine. To-date the emerging saliva-based therapeutics include artificial salivas and antimicrobial agents based on histatins and mucins. 相似文献
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Mutations in E-cadherin are associated with a number of diseases, and have been shown to contribute to disease progression. In particular, 50% of hereditary diffuse gastric cancer cases have inactivating mutations in the E-cadherin gene. An interesting mutation near the beta-catenin-binding site on the cytoplasmic domain of E-cadherin (V832M) was recently reported that produces full-length protein, but exhibits decreased binding of alpha -catenin to the cadherin/catenin complex. The study was done by transfecting mutant E-cadherin into Chinese hamster ovary fibroblast cells. Here we show that the previously reported characteristics of this mutation do not apply to human epithelial cells expressing this mutant protein and suggest that the mechanism whereby the V832M mutation in human E-cadherin promotes gastric cancer is not yet understood. 相似文献
336.
Qin J Calabrese P Tiemann-Boege I Shinde DN Yoon SR Gelfand D Bauer K Arnheim N 《PLoS biology》2007,5(9):e224
The frequency of the most common sporadic Apert syndrome mutation (C755G) in the human fibroblast growth factor receptor 2 gene (FGFR2) is 100–1,000 times higher than expected from average nucleotide substitution rates based on evolutionary studies and the incidence of human genetic diseases. To determine if this increased frequency was due to the nucleotide site having the properties of a mutation hot spot, or some other explanation, we developed a new experimental approach. We examined the spatial distribution of the frequency of the C755G mutation in the germline by dividing four testes from two normal individuals each into several hundred pieces, and, using a highly sensitive PCR assay, we measured the mutation frequency of each piece. We discovered that each testis was characterized by rare foci with mutation frequencies 103 to >104 times higher than the rest of the testis regions. Using a model based on what is known about human germline development forced us to reject (p < 10−6) the idea that the C755G mutation arises more frequently because this nucleotide simply has a higher than average mutation rate (hot spot model). This is true regardless of whether mutation is dependent or independent of cell division. An alternate model was examined where positive selection acts on adult self-renewing Ap spermatogonial cells (SrAp) carrying this mutation such that, instead of only replacing themselves, they occasionally produce two SrAp cells. This model could not be rejected given our observed data. Unlike the disease site, similar analysis of C-to-G mutations at a control nucleotide site in one testis pair failed to find any foci with high mutation frequencies. The rejection of the hot spot model and lack of rejection of a selection model for the C755G mutation, along with other data, provides strong support for the proposal that positive selection in the testis can act to increase the frequency of premeiotic germ cells carrying a mutation deleterious to an offspring, thereby unfavorably altering the mutational load in humans. Studying the anatomical distribution of germline mutations can provide new insights into genetic disease and evolutionary change. 相似文献
337.
Rose A. Keith Thomas Mitchell‐Olds 《Evolution; international journal of organic evolution》2019,73(5):947-960
When pleiotropy is present, genetic correlations may constrain the evolution of ecologically important traits. We used a quantitative genetics approach to investigate constraints on the evolution of secondary metabolites in a wild mustard, Boechera stricta. Much of the genetic variation in chemical composition of glucosinolates in B. stricta is controlled by a single locus, BCMA1/3. In a large‐scale common garden experiment under natural conditions, we quantified fitness and glucosinolate profile in two leaf types and in fruits. We estimated genetic variances and covariances (the G ‐matrix) and selection on chemical profile in each tissue. Chemical composition of defenses was strongly genetically correlated between tissues. We found antagonistic selection between defense composition in leaves and fruits: compounds that were favored in leaves were disadvantageous in fruits. The positive genetic correlations and antagonistic selection led to strong constraints on the evolution of defenses in leaves and fruits. In a hypothetical population with no genetic variation at BCMA1/3, we found no evidence for genetic constraints, indicating that pleiotropy affecting chemical profile in multiple tissues drives constraints on the evolution of secondary metabolites. 相似文献
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Ajay K. Saxena Tej P. Singh Klaus Peters Siegfried Fittkau Marcia Visanji Keith S. Wilson Christian Betzel 《Proteins》1996,25(2):195-201
The crystal structure of a ternary complex of proteinase K, Hg(II) and a hexapeptide N-Ac-Pro-Ala-Pro-Phe-Pro-Ala-NH2 has been determined at 2.2 Å resolution and refined to an R factor of 0.172 for 12,910 reflections. The mercury atom occupies two alternate sites, each of which was assigned an occupancy of 0.45. These two sites are bridged by Cys-73 Sγ which forms covalent bonds to both. Both mercury sites form regular polyhedrons involving atoms from residues Asp-39, His-69, Cys-73, His-72, Met-225, and Wat-324. The complex formation with mercury seems to disturb the stereochemistry of the residues of the catalytic triad Asp-39, His-69, and Ser-224 appreciably, thus reducing the enzymatic activity of proteinase K to 15%. The electron density in the difference Fourier map shows that the hexapeptide occupies the S1 subsite predominantly and the standard recognition site constituted by Ser-132 to Gly-136 and Gly-100 to Tyr-104 segments is virtually empty. The hexapeptide is held firmly through a series of hydrogen bonds involving protein atoms and water molecules. As a result of complex formation, Asp-39, His-69, Met-225, Ile-220, Ser-219, Thr-223, and Ser-224 residues move appreciably to accommodate the mercury atoms and the hexapeptide. The largest movement is observed for Met-225 which is involved in multiple interactions with both mercury and the hexapeptide. The activity results indicate an inhibition rate of 95%, as a result of the combined effect of mercury and hexapeptide. © 1996 Wiley-Liss, Inc. 相似文献