Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.27.1 (RNase)
 16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Seven hydrophobic residues ranging in size from glycine to phenylalanine have been substituted for the wild-type methionine residue at position 13 in a 15-residue truncated version (S15) of S-peptide, the small component of ribonuclease S. Complexes of both S-15 and the seven variants with S-protein yielded isomorphous crystals. The structures of all eight complexes have been refined to final R-factors in the range of 17-19%. [See Kim, E. E. Varadarajan, R., Wyckoff, H. W., and Richards, F. M. (1992) Biochemistry (preceding paper in this issue) for the description of the reference S-15 complex.] Multiple side-chain conformations were seen for six residues in all of the complexes and for two to three additional residues in at least some of the complexes. Three of the complexes, Gly, Ala, and alpha-amino-n-butyric acid (ANB), contained a single water molecule in the cavity near residue 13 that makes three hydrogen bonds to protein atoms. Although space is available, no evidence for additional water in this region, ordered or disordered, was found. The atoms in the cavity wall tend to shrink the cavity by moving in on the small residues and to swell the cavity by moving out for the larger Phe substitution. A swelling seen with leucine was attributed to a shape effect since Leu, Ile, and Met all have the same volume. A slight volume contraction of the collection of interior residues outside of the region of position 13 was also noted. (All changes noted are in the direction to maintain a constant packing density averaged over the whole protein.) Leu51, a surface hydrophobic residue, moved considerably in the G, A, and ANB complexes in directionswhich would tend to decrease the cavity volume. The only other major change in position, 1.5 A, was the 66-69 loop, which is about 25 A from position 13. His12, Phe120, and Asp121 appear to be involved in this movement, but the connection with position 13 is not clear at all. The thermodynamic data on the association reaction for all of these complexes have been previously reported [Connelly, P. R., Varadarajan, R., Sturtevant, J. M., & Richards, F. M. (1990) Biochemistry 29, 6108-6114; Varadarajan, R., Connelly, P. R., Sturtevant, J. M., & Richards, F. M. (1992) Biochemistry 31, 1421-1426]. Some comments are offered on our initial attempts to correlate the structural changes with the changes in the thermodynamic parameters.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Crystallographic structures of ribonuclease S variants with nonpolar substitution at position 13: packing and cavities. 146 20

While most Japanese apricot (Prunus mume Sieb. et Zucc.) cultivars display typical S-RNase-based gametophytic self-incompatibility, some self-compatible (SC) cultivars have also been identified. In this study, we confirmed SC of 'Zaohong' through replicated self-pollination tests. Cross-pollination tests showed that SC of 'Zaohong' was caused by a loss of pollen function, so we determined that the S-genotype of 'Zaohong' was S 2 S 15 . Sequence analysis of the S-haplotypes of 'Zaohong' showed no mutations which were likely to alter gene function. Furthermore, expression analysis based on RT-PCR of S-locus genes revealed no differences at the transcript level when compared with 'Xiyeqing', a self-incompatible cultivar with the same S haplotypes. In addition, except for S-locus genes, a new type of F-box gene encoding a previously uncharacterised protein with high sequence similarity (61.03-64.65 %) to Prunus SFB genes was identified. Putative structural regions of PmF-box genes have been described, corresponding to regions in PmSFB alleles, but with some sequence variations. These results suggest that SC in 'Zaohong' occurs in pollen, and that other factors outside the S-locus, including PmF-box genes, might be associated with the loss of function of pollen S genes.
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PMID:Self-compatibility in 'Zaohong' Japanese apricot is associated with the loss of function of pollen S genes. 2406 77