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Ribonuclease

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Revision as of 13:43, 7 December 2014

Ribonuclease A (magenta) complex with thymidilic acid DNA tetramer (pink), 1rta

Drag the structure with the mouse to rotate

Ribonuclease (RNase) degrades RNA. The endonucleases cleave single or double stranded RNA and include RNase III, A, T1 H and P. Exo-RNases remove terminal nucleotide from the ends of the RNA molecule. They include RNase II D, T, PH, Polynucleotide Phosphorylase (PNPase) and oligoribonuclease (ORNase). 

RNase A cleaves C or U of single-stranded RNA (ssRNA).
RNase BA is RNase from Bacillus amyloliquefaciens.
RNase D degrades 3'-end pre-tRNA.
RNase H cleaves RNA/DNA double-strand to produce ssDNA.
RNase I cleaves 3'-end of ssRNA.
RNase II degrades 3'-end ssRNA.
RNase III cleaves rRNA.
RNase 5 is known as angiogenin and is a potent stimulator of new blood vessels formation.
RNase P is a ribozyme.
RNase S is RNase A cleaved by subtilisin.
RNase SA is RNase from Streptomyces auerofaciens.
RNase T is involved in RNA maturation.
RNase T1 cleaves 3'-end G from ssRNA.
RNase U2 cleaves 3'-end A from ssRNA.
α-sarcin is a cytotoxic RNase which cleaves a phosphodiester bond in a conserved rRNA loop and inactivates the ribosome.
oligoribonuclease is an exoribonuclease which cleaves 3'-end of viral RNA-DNA hybrid.
Polynucleotide phosphorylase is a bifunctional enzyme which has exoribonuclease activity.
Binase is a microbial RNase which cleaves endonucleolyticly ssRNA.
Poly(A)-specific RNase cleaves exonucleolyticly the poly(A) tail.

For more details on RNase A see:

For RNase B and RNase S see RNaseS RNaseB.

Active Site of Ribonuclease A

Ribonuclease A cleaves RNA strands by catalyzing a transphosphorylation reaction where the 2'-OH of the ribose sugar attacks the neighboring phosphate, releasing the ribose on the the other side of the phosphate. This structure shows ribonuclease A (in blue) bound to short DNA strand composed of four thymidines (in pink). Ribonuclease binds tightly to DNA, but since DNA is missing the 2'-OH, ribonuclease does not cleave it. are shown that are important for catalysis. The 3' carbon on the DNA is shown in red--it is the site where the 2'-OH is connected in RNA. The two histidines perform the proton transfers that are needed in the reaction, and the lysine stabilizes the intermediate that is formed as the 2'-OH attacks the phosphate. Ribonuclease cleaves RNA strands best next to cytidine and uridine nucleotides--the reason for this may be seen in a . Notice that the small pyrimidine base is surrounded by protein atoms. A larger purine base would not fit well in this space.^[1]

3D Structures of Ribonuclease

Updated on 07-December-2014

References

↑ Birdsall DL, McPherson A. Crystal structure disposition of thymidylic acid tetramer in complex with ribonuclease A. J Biol Chem. 1992 Nov 5;267(31):22230-6. PMID:1429575

Created with the participation of David S. Goodsell, Eric Martz, and Eran Hodis.

Proteopedia Page Contributors and Editors (what is this?)

Michal Harel, Alexander Berchansky, Wayne Decatur, David Canner, Joel L. Sussman, Jaime Prilusky

Retrieved from "http://52.214.119.220/wiki/index.php/Ribonuclease"

Category: Topic Page

@@ Line 1: / Line 1: @@
-<StructureSection load='1rta' size='400' color=''  spin='on' Scene=''  caption='Ribonuclease A (magenta) complex with thymidilic acid DNA tetramer (pink), [[1rta]]' >
+<StructureSection load="1rta" size="400" color=""  spin="on" Scene=  caption='Ribonuclease A (magenta) complex with thymidilic acid DNA tetramer (pink), [[1rta]]' >
 '''Ribonuclease''' (RNase) degrades RNA.  The endonucleases cleave single or double stranded RNA and include RNase III, A, T1 H and P.  Exo-RNases remove terminal nucleotide from the ends of the RNA molecule.  They include RNase II D, T, PH, Polynucleotide Phosphorylase (PNPase) and oligoribonuclease (ORNase). <br />
@@ Line 34: / Line 34: @@
 ==Active Site of Ribonuclease A==
 Ribonuclease A cleaves RNA strands by catalyzing a transphosphorylation reaction where the 2'-OH of the ribose sugar attacks the neighboring phosphate, releasing the ribose on the the other side of the phosphate. This structure shows ribonuclease A (in blue) bound to short DNA strand composed of four thymidines (in pink). Ribonuclease binds tightly to DNA, but since DNA is missing the 2'-OH, ribonuclease does not cleave it. <scene name='Goodsell_Sandbox/Ribonuclease_catalytic_site/2'>Three amino acids</scene> are shown that are important for catalysis. The 3' carbon on the DNA is shown in red--it is the site where the 2'-OH is connected in RNA. The two histidines perform the proton transfers that are needed in the reaction, and the lysine stabilizes the intermediate that is formed as the 2'-OH attacks the phosphate. Ribonuclease cleaves RNA strands best next to cytidine and uridine nucleotides--the reason for this may be seen in a <scene name='Goodsell_Sandbox/Ribonuclease_recognition/2'>spacefilling representation</scene>. Notice that the small pyrimidine base is surrounded by protein atoms. A larger purine base would not fit well in this space.<ref>PMID:1429575</ref>
+{{Clear}}
 </StructureSection>

Ribonuclease

From Proteopedia

Revision as of 13:43, 7 December 2014

Active Site of Ribonuclease A

3D Structures of Ribonuclease

References

Proteopedia Page Contributors and Editors (what is this?)

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