Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: EC:3.1.26.9 (
ribonuclease
)
6,589
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The deletion mutant Delta(7-22) of
alpha-sarcin
, unlike its wild-type protein counterpart, lacks the specific ability to degrade rRNA in intact ribosomes and exhibits an increased unspecific
ribonuclease
activity and decreased interaction with lipid vesicles. In trying to shed light on these differences, we report here on the three-dimensional structure of the Delta(7-22)
alpha-sarcin
mutant using NMR methods. We also evaluated its dynamic properties on the basis of theoretical models and measured its correlation time (6.2 nsec) by time-resolved fluorescence anisotropy. The global fold characteristic of ribotoxins is preserved in the mutant. The most significant differences with respect to the
alpha-sarcin
structure are concentrated in (1) loop 2, (2) loop 3, which adopts a new orientation, and (3) loop 5, which shows multiple conformations and an altered dynamics. The interactions between loop 5 and the N-terminal hairpin are lost in the mutant, producing increased solvent accessibility of the active-site residues. The degree of solvent exposure of the catalytic His 137 is similar to that shown by His 92 in RNase T1. Additionally, the calculated order parameters of residues belonging to loop 5 in the mutant correspond to an internal dynamic behavior more similar to RNase T1 than
alpha-sarcin
. On the other hand, changes in the relative orientation of loop 3 move the lysine-rich region 111-114, crucial for substrate recognition, away from the active site. All of the structural and dynamic data presented here reveal that the mutant is a hybrid of ribotoxins and noncytotoxic ribonucleases, consistent with its biological properties.
...
PMID:NMR structure of the noncytotoxic alpha-sarcin mutant Delta(7-22): the importance of the native conformation of peripheral loops for activity. 1504 31
A unique
ribonuclease
named Biota orientalis
ribonuclease
(Biota orientalis RNase) is purified to homogeneity from mature seeds of oriental arborvitae (Biota orientalis). The molecular mass of Biota orientalis RNase is about 13 kDa. When the concentration of Mg(2+) is 25 mM in the incubation buffer, the
ribonuclease
specifically cleaves the phosphodiester bond between C4453 and A4454 in region K (a region in domain VII) of 28S RNA in rat ribosome, resulting in inactivation of ribosome. Thus, it is a ribotoxin similar to
alpha-sarcin
. The region around C4453-A4454 in rat 28S rRNA is named "Biota orientalis RNase region." Rat ribosome treated by Biota orientalis RNase produces a small RNA fragment (S-fragment) that contains 333 nucleotides from the 3'-terminus of rat 28S rRNA. The distance between the cleavage-sites of
alpha-sarcin
(G4325) and Biota orientalis RNase (C4453) is 128 nucleotides. Under restricted conditions (25 mM Mg(2+)), the substrate specificity of Biota orientalis RNase is extremely high: it acts only on the "Biota orientalis RNase region" of the largest RNA in ribosomes from certain eukaryotes. The ribosome specifically damaged by Biota orientalis RNase is unable to EF-1alpha-dependently bind aminoacyl-tRNA, whereas the formation of the EF-2/GDP/ribosome complex is not affected. It is proposed that Biota orientalis RNase inactivates ribosome at least partially by interfering with the EF-1alpha-dependent binding of aminoacyl-tRNA to ribosome. Biota orientalis RNase might be a useful tool in studying the structure/function of ribosome.
...
PMID:A novel ribotoxin with ribonuclease activity that specifically cleaves a single phosphodiester bond in rat 28S ribosomal RNA and inactivates ribosome. 1517 85
Alpha-sarcin is an exquisitely specific
ribonuclease
that binds and cleaves a single phosphodiester bond in the large rRNA of the eukaryotic ribosome, inactivating it. To better understand this remarkable activity, the contributions of the active site residues (His 50, Glu 96, and His 137) to the conformational stability have been determined as a function of pH using variant proteins containing uncharged substitutes. Wild-type
alpha-sarcin
and the variants are maximally stable near pH 5.5, coinciding with the pH of optimal activity. A comparison of the stability vs pH profiles determined by thermal denaturation experiments to those calculated on the basis of pKa values shows that the charged forms of Glu 96 and His 137 compromise the enzyme's stability, lowering it. In contrast to barnase, there is little evidence for significant electrostatic interactions in the denatured states of
alpha-sarcin
or its active site variants between pH 3.5 and pH 8.5. Alpha-sarcin contains a long beta-hairpin and surface loops which are highly positively charged and which play key roles in membrane translocation and in ribosome binding. These positive charges decrease the stability of
alpha-sarcin
, particularly below pH 5. Hydrogen exchange measurements have been performed at pH 5.5 and reveal that the catalytic residues are firmly anchored in highly stable elements of secondary structure. Significant, though lower, levels of protection are observed for many amide protons in the positively charged beta-hairpin and long loops.
...
PMID:pH-Dependent conformational stability of the ribotoxin alpha-sarcin and four active site charge substitution variants. 1710 90
We report structural, functional, and biochemical similarities between Argonautes, the effector proteins of RNA-induced silencing complexes (RISCs), and
alpha-sarcin
-like ribotoxins. At the structural level, regions of similarity in the amino acid sequence are located in protein loops both in the ribotoxins and in the Argonautes. In ribotoxins, these protein loops confer specificity for a highly conserved segment of ribosomal RNA, the Sarcin-Ricin-Loop (SRL) that undergoes cleavage by the ribotoxin
ribonuclease
. This leads to suppression of translation. In addition to the structural similarity with ribotoxins, the Argonaute proteins (Ago) show both functional and biochemical parallels. Like the ribotoxins, the Agos exhibit
ribonuclease
activity and like the ribotoxins, translational suppression mediated by miRISC-resident Ago is accompanied by intact polysomes. Furthermore, in both translationally suppressed systems, the puromycin reaction, reflecting correct translocation and peptidyl-transferase activities, is unharmed. These findings support a mechanism for Ago-miRISCs whereby regulated cleavage of ribosomal RNA leads to translational suppression.
...
PMID:Similarities between Argonautes and the alpha-sarcin-like ribotoxins: Implications for microRNA action. 2051 80
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