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Query: EC:3.1.27.1 (
RNase
)
16,360
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A peptide, with a molecular mass of 9.5kDa and demonstrating an N-terminal sequence similar to
ubiquitin
, was isolated from fruiting bodies of the mushroom Agrocybe cylindracea. The peptide was isolated with a purification protocol involving ion exchange chromatography on DEAE-cellulose, affinity chromatography on Affi-gel blue gel, FPLC-ion exchange chromatography on Mono S and FPLC-gel filtration on Superdex 75. The peptide was unadsorbed on DEAE-cellulose and adsorbed on Affi-gel blue gel and Mono S. It showed antiproliferative activity on leukemia cell line (M1) and hepatoma cell line (HepG2), and enhanced nitric oxide production in murine peritoneal macrophages with a potency comparable to that of lipopolysaccharide. A pH of 6.0 was required for optimal
RNase
activity. Its
RNase
activity was stable over the temperature range of 0-60 degrees C. It exerted ribonucleolytic activity preferentially on polyC, much lower activity on polyU, and negligible activity on polyA and polyG.
...
PMID:Purification and characterization of a ubiquitin-like peptide with macrophage stimulating, antiproliferative and ribonuclease activities from the mushroom Agrocybe cylindracea. 1289 48
A
ribonuclease
, with a molecular mass of 13 kDa and a
ubiquitin
-like N-terminal sequence, has been isolated from fruiting bodies of the mushroom Termitomyces globulus. The
ribonuclease
demonstrated ribonucleolytic activity toward poly A, poly C, poly G and poly U, with the activity toward poly A and poly C being much higher than that toward poly G and poly U. The
ribonuclease
was unadsorbed on DEAE-cellulose but adsorbed on Affi-gel blue gel and CM-Sepharose. The enzyme required a temperature of 70 degrees C for expression of maximal activity. However, the enzyme expressed nearly the same optimal activity over a wide pH range of 5.0-8.0.
...
PMID:Isolation of a ribonuclease from fruiting bodies of the wild mushroom Termitomyces globulus. 1449 75
Self-incompatibility S-locus-encoded F-box (SLF) proteins have been identified in Antirrhinum and several Prunus species. Although they appear to play an important role in self-incompatible reaction, functional evidence is lacking. Here, we provide several lines of evidence directly implicating a role of AhSLF-S(2) in self-incompatibility in Antirrhinum. First, a nonallelic physical interaction between AhSLF-S(2) and S-RNases was demonstrated by both coimmunoprecipitation and yeast two-hybrid assays. Second, AhSLF-S(2) interacts with ASK1- and CULLIN1-like proteins in Antirrhinum, and together, they likely form an Skp1/Cullin or CDC53/F-box (SCF) complex. Third, compatible pollination was specifically blocked after the treatment of the proteasomal inhibitors MG115 and MG132, but they had little effect on incompatible pollination both in vitro and in vivo, indicating that the
ubiquitin
/26S proteasome activity is involved in compatible pollination. Fourth, the ubiquitination level of style proteins was increased substantially after compatible pollination compared with incompatible pollination, and coimmunoprecipitation revealed that S-RNases were ubiquitinated after incubating pollen proteins with compatible but not with incompatible style proteins, suggesting that non-self S-RNases are possibly degraded by the
ubiquitin
/26S proteasome pathway. Fifth, the S-
RNase
level appeared to be reduced after 36 h of compatible pollination. Taken together, these results show that AhSLF-S(2) interacts with S-RNases likely through a proposed SCF(AhSLF-S2) complex that targets S-
RNase
destruction during compatible rather than incompatible pollination, thus providing a biochemical basis for the inhibition of pollen tube growth as observed in self-incompatible response in Antirrhinum.
...
PMID:The F-box protein AhSLF-S2 physically interacts with S-RNases that may be inhibited by the ubiquitin/26S proteasome pathway of protein degradation during compatible pollination in Antirrhinum. 1497 68
The
ubiquitin
-proteasome system (UPS) is a central component in the cellular defence against potentially toxic protein aggregates. UPS dysfunction is linked to the pathogenesis of both sporadic and inherited neurodegenerative diseases, including dominantly inherited familial amyotrophic lateral sclerosis (fALS). To investigate the role of the UPS in fALS pathogenesis, transgenic mice expressing mutant G9 3A Cu,Zn superoxide dismutase (SOD1) were crossed with transgenic mice expressing epitope tagged, wild-type or dominant-negative mutant
ubiquitin
(Ub(K48R)).
RNase
protection assays were used to confirm expression of the Ub transgenes in spinal cord and
ubiquitin
transgene levels were estimated to account for 9-12% of total
ubiquitin
. Mice expressing the G9 3A transgene exhibited neurological symptoms and histopathological changes typical of this model irrespective of
ubiquitin
transgene status. Impaired rotarod performance was observed in all G9 3A transgenics by 7 weeks of age irrespective of
ubiquitin
genotype. The presence of wild-type or mutant
ubiquitin
transgenes resulted in a small but significant delay in the onset of clinical symptoms and mild acceleration of disease progression, without influencing overall survival. These data suggest that relatively small changes in
ubiquitin
expression can influence the development of neurodegenerative disease and are consistent with a neuroprotective role for the UPS.
...
PMID:Effect of ubiquitin expression on neuropathogenesis in a mouse model of familial amyotrophic lateral sclerosis. 1563 28
The Antirrhinum S-locus F-box gene, AhSLF-S2, has been shown to determine the pollen function of S-
RNase
-mediated self-incompatibility (SI). Its initial identification led to the discovery of a large family of plant-specific F-box proteins, named the SLF (S-Locus F-box) family, including members from species with or without S-
RNase
SI system. To investigate the evolution and function of its family members in Arabidopsis, we first identified 92 Arabidopsis F-box proteins related to AhSLF-S2, referred to as AtSFL (S-locus F-box-like) in this report. Phylogenetic analyses with family members from several plant species revealed that they could be classified into five subgroups, and the SLF genes appeared to have had a monophyletic origin. Yeast two-hybrid analyses showed that most AtSFL proteins could interact with one or more ASK (Arabidopsis Skp1-like) proteins, a component of the SCF (Skp1/Cullin or CDC53/F-box) complex, suggesting that AtSFLs may function in the process of
ubiquitin
/26S proteasome-mediated proteolysis. Transcript analysis found that most of AtSFL genes are expressed ubiquitously and only three of them (AtSFL61, 79 and 85) displayed a tissue-specific pattern. In consistent, phenotypic observations for T-DNA insertion lines of 37 AtSFL genes revealed that most of them are functionally redundant, but inactivation of two AtSFL genes (AtSFL 61 and 70) appears to have caused developmental defects in embryo or female gametophyte. Our results show that a diversified expression and functional pattern are associated with AtSFL genes, indicating that they play important roles in various biological processes in Arabidopsis.
...
PMID:Genome-wide analysis of S-Locus F-box-like genes in Arabidopsis thaliana. 1582 91
Petunia inflata S-locus F-box (Pi SLF) is thought to function as a typical F-box protein in
ubiquitin
-mediated protein degradation and, along with Skp1, Cullin-1, and Rbx1, could compose an SCF complex mediating the degradation of nonself S-
RNase
but not self S-
RNase
. We isolated three P. inflata Skp1s (Pi SK1, -2, and -3), two Cullin-1s (Pi CUL1-C and -G), and an Rbx1 (Pi RBX1) cDNAs and found that Pi CUL1-G did not interact with Pi RBX1 and that none of the three Pi SKs interacted with Pi SLF(2). We also isolated a RING-HC protein, S-
RNase
Binding Protein1 (Pi SBP1), almost identical to Petunia hybrida SBP1, which interacts with Pi SLFs, S-RNases, Pi CUL1-G, and an E2 ubiquitin-conjugating enzyme, suggesting that Pi CUL1-G, SBP1, and SLF may be components of a novel E3 ligase complex, with Pi SBP1 playing the roles of Skp1 and Rbx1. S-RNases interact more with nonself Pi SLFs than with self Pi SLFs, and Pi SLFs also interact more with nonself S-RNases than with self S-RNases. Bacterially expressed S(1)-, S(2)-, and S(3)-RNases are degraded by the 26S proteasomal pathway in a cell-free system, albeit not in an S-allele-specific manner. Native glycosylated S(3)-
RNase
is not degraded to any significant extent; however, deglycosylated S(3)-
RNase
is degraded as efficiently as the bacterially expressed S-RNases. Finally, S-RNases are ubiquitinated in pollen tube extracts, but whether this is mediated by the Pi SLF-containing E3 complex is unknown.
...
PMID:Identification and characterization of components of a putative petunia S-locus F-box-containing E3 ligase complex involved in S-RNase-based self-incompatibility. 1702 7
Using sensitive sequence profile searches and contextual information gleaned from domain architectures and predicted operons we identify a novel family of protein domains with predicted
ribonuclease
activity. These domains are found in the eukaryotic proteins typified by the Nedd4-binding protein 1 and the bacterial YacP-like proteins (Nedd4-BP1, YacP nucleases; NYN domains). We show that the NYN domain shares a common protein fold with two other previously characterized groups of nucleases, namely the PIN (PilT N-terminal) and FLAP/5' --> 3' exonuclease superfamilies. We also show that all these proteins share a common set of 4 acidic conserved residues that are predicted to constitute their active site. Based on the conservation of the acidic residues and structural elements we suggest that PIN and NYN domains are likely to bind only a single metal ion, unlike the FLAP/5' --> 3' exonuclease superfamily, which binds two metal ions. We also present evidence that the other conserved residues shared by all these three domains are likely to play critical roles in sensing the substrate and positioning the catalytic residues in the right conformation. Based on conserved gene neighborhoods we infer that the bacterial members are likely to be components of the processome/degradsome that process tRNAs or ribosomal RNAs. Eukaryotic versions appear to have undergone extensive functional diversification as suggested by the several distinctive multi-domain architectures showing fusions with various other RNA-binding domains like CCCH, PPR and KH domains. Interestingly, the eukaryotic NYN domains also show multiple fusions to the UBA domain, an
ubiquitin
-binding adaptor domain. This observation, together with the monoubiquitination of Nedd4-BP1 by the ubiquitin ligase Nedd4 suggests that the NYN domain proteins of eukaryotes are regulated by monoubiquitination. Given the localization of Nedd4-BP1 to punctuate nuclear bodies, it is likely that they are parts of nuclear RNA-processing complexes that are dependent on monoubiquitination for their assembly.
...
PMID:The NYN domains: novel predicted RNAses with a PIN domain-like fold. 1711 34
S-
RNase
-based self-incompatibility has been identified in three flowering plant families, including the Solanaceae, and this self/non-self recognition mechanism between pollen and pistil is controlled by two polymorphic genes at the S-locus, S-
RNase
and S-locus F-box (SLF). S-
RNase
is produced in the pistil and taken up by pollen tubes in a non-S-haplotype-specific manner. How an allelic product of SLF interacts with self and non-self S-RNases to result in growth inhibition of self pollen tubes is not completely understood. One model predicts that SLF targets non-self S-RNases for
ubiquitin
/26S proteasome-mediated degradation, thereby only allowing self S-
RNase
to exert cytotoxic activity inside a pollen tube. To test this model, we studied whether any of the 20 lysine residues in S(3)-
RNase
of Petunia inflata might be targets for ubiquitination. We identified six lysines near the C-terminus for which mutation to arginine significantly reduced ubiquitination and degradation of the mutant S(3)-
RNase
, GST:S(3)-
RNase
(K141-164R) in pollen tube extracts. We further showed that GST:S(3)-
RNase
(K141-164R) and GST:S(3)-
RNase
had similar
RNase
activity, suggesting that their degradation was probably not caused by an ER-associated protein degradation pathway that removes mis-folded proteins. Finally, we showed that PiSBP1 (P. inflata S-
RNase
binding protein 1), a potential RING-HC subunit of the PiSLF (P. inflata SLF)-containing E3-like complex, could target S-
RNase
for ubiquitination in vitro. All these results suggest that
ubiquitin
/26S proteasome-dependent degradation of S-
RNase
may be an integral part of the S-
RNase
-based self-incompatibility mechanism.
...
PMID:Identification of major lysine residues of S(3)-RNase of Petunia inflata involved in ubiquitin-26S proteasome-mediated degradation in vitro. 1834 91
Fusion of one protein domain with another is a common event in both evolution and protein engineering experiments. When insertion is at an internal site (e.g., a surface loop or turn), as opposed to one of the termini, conformational strain can be introduced into both domains. Strain is manifested by an antagonistic folding-unfolding equilibrium between the two domains, which we previously showed can be parameterized by a coupling free-energy term (DeltaG(X)). The extent of strain is predicted to depend primarily on the ratio of the N-to-C distance of the guest protein to the distance between ends of the surface loop in the host protein. Here, we test that hypothesis by inserting
ubiquitin
(Ub) into the bacterial
ribonuclease
barnase (Bn), using peptide linkers from zero to 10 amino acids each. DeltaG(X) values are determined by measuring the extent to which Co(2+) binding to an engineered site on the Ub domain destabilizes the Bn domain. All-atom, unforced Langevin dynamics simulations are employed to gain structural insight into the mechanism of mechanically induced unfolding. Experimental and computational results find that the two domains are structurally and energetically uncoupled when linkers are long and that DeltaG(X) increases with decreasing linker length. When the linkers are fewer than two amino acids, strain is so great that one domain unfolds the other. However, the protein is able to refold as dimers and higher-order oligomers. The likely mechanism is a three-dimensional domain swap of the Bn domain, which relieves conformational strain. The simulations suggest that an effective route to mechanical unfolding begins with disruption of the hydrophobic core of Bn near the Ub insertion site.
...
PMID:Effect of interdomain linker length on an antagonistic folding-unfolding equilibrium between two protein domains. 1903 64
The objective was to identify proteins differentially expressed in vaginal cancer to elucidate relevant cancer-related proteins. A total of 16 fresh-frozen tissue biopsies, consisting of 5 biopsies from normal vaginal epithelium, 6 from primary vaginal carcinomas and 5 from primary cervical carcinomas, were analysed using two-dimensional gel electrophoresis (2-DE) and MALDI-TOF mass spectrometry. Of the 43 proteins identified with significant alterations in protein expression between non-tumourous and tumourous tissue, 26 were upregulated and 17 were downregulated. Some were similarly altered in vaginal and cervical carcinoma, including cytoskeletal proteins, tumour suppressor proteins, oncoproteins implicated in apoptosis and proteins in the
ubiquitin
-proteasome pathway. Three proteins were uniquely altered in vaginal carcinoma (DDX48, erbB3-binding protein and biliverdin reductase) and five in cervical carcinoma (peroxiredoxin 2, annexin A2, sarcomeric tropomyosin kappa, human
ribonuclease
inhibitor and prolyl-4-hydrolase beta). The identified proteins imply involvement of multiple different cellular pathways in the carcinogenesis of vaginal carcinoma. Similar protein alterations were found between vaginal and cervical carcinoma suggesting common tumourigenesis. However, the expression level of some of these proteins markedly differs among the three tissue specimens indicating that they might be useful molecular markers.
...
PMID:Differential tissue-specific protein markers of vaginal carcinoma. 1936 86
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