2C4M PDB NFT | MOLNFT bioinformatics, blockchain

Starch phosphorylase: structural studies explain oxyanion-dependent kinetic stability and regulatory control.

MOLNFT AF v1 smart contract in GenesisL1 blockchain:

0xDE3723766Bc32dcACD03C17BaA400A7B36837Eba

IPFS of NFT metadata:

bafybeiein6hcilbh4fanhrmw3wyjh5kwwulrpqkyaj56b2hyq2htlop54e/metadata.json

IPFS of structure file:

bafybeihzboih72so7umg2tuswdltgfla4gzechn5ax4axwu3fdxetcrkie/2c4m.pdb

MOLNFT PDB v1

NFT id:
32919
PDB ID:
2C4M
Name:
Starch phosphorylase: structural studies explain oxyanion-dependent kinetic stability and regulatory control.
Keywords:
TRANSFERASE
Experimental Method:
X-RAY DIFFRACTION
Resolution:
1.90

NFT data

MolNFT PDB v1 is The Protein Data Bank database (URL: https://rcsb.org) of protein structures minted as ERC-721 NFT tokens on GenesisL1 blockchain for public free use, research and entertainment:

H.M. Berman, J. Westbrook, Z. Feng, G. Gilliland, T.N. Bhat, H. Weissig, I.N. Shindyalov, P.E. Bourne.
(2000) The Protein Data Bank Nucleic Acids Research, 28: 235-242.

MOLNFT 2C4M research and analysis (ICN3D with VR)

FASTA sequences

>2c4m_A mol:protein length:796 GLYCOGEN PHOSPHORYLASE
MSPEKQPLPAALVGSHVRAAAGTPADLATDRKFWTGLSRAVQERIADDWERTREAYGAARQQHYFSAEFLMGRALLNNLTNLGLVDEAAAATRELGHELTDILEIENDAALGNGGLGRLAACFLDSAVTQDYPVTGYGLLYRFGLFRQSFNEGFQVEKPDPWREEEYPFTIRRASDQLVVCFDDMKTRAIPYDMPITGYGTHNVGTLRLWKAEPWEEFDYDAFNAQRFTDAIIERERVSDICRVLYPNDTTYEGKKLRVRQQYFFTSASLQAMIQDHLAHHKDLSNFAEFHSVQLNDTHPVLAIPELMRLLMDEHDMGWEESWAIVSKTFAYTNHTVLTEALEQWDEQIFQQLFWRVWEIIAEIDRRFRLERAADGLDEETINRMAPIQHGTVHMAWIACYAAYSINGVAALHTEIIKAETLADWYALWPEKFNNKTNGVTPRRWLRMINPGLSDLLTRLSGSDDWVTDLDELKKLRSYADDKSVLEELRAIKAANKQDFAEWILERQGIEIDPESIFDVQIKRLHEYKRQLMNALYVLDLYFRIKEDGLTDIPARTVIFGAKAAPGYVRAKAIIKLINSIADLVNNDPEVSPLLKVVFVENYNVSPAEHILPASDVSEQISTAGKEASGTSNMKFMMNGALTLGTMDGANVEIVDSVGEENAYIFGARVEELPALRESYKPYELYETVPGLKRALDALDNGTLNDNNSGLFYDLKHSLIHGYGKDASDTYYVLGDFADYRETRDRMAADYASDPLGWARMAWINICESGRFSSDRTIRDYATEIWKLEPTPAVKK
>2c4m_B mol:protein length:796 GLYCOGEN PHOSPHORYLASE
MSPEKQPLPAALVGSHVRAAAGTPADLATDRKFWTGLSRAVQERIADDWERTREAYGAARQQHYFSAEFLMGRALLNNLTNLGLVDEAAAATRELGHELTDILEIENDAALGNGGLGRLAACFLDSAVTQDYPVTGYGLLYRFGLFRQSFNEGFQVEKPDPWREEEYPFTIRRASDQLVVCFDDMKTRAIPYDMPITGYGTHNVGTLRLWKAEPWEEFDYDAFNAQRFTDAIIERERVSDICRVLYPNDTTYEGKKLRVRQQYFFTSASLQAMIQDHLAHHKDLSNFAEFHSVQLNDTHPVLAIPELMRLLMDEHDMGWEESWAIVSKTFAYTNHTVLTEALEQWDEQIFQQLFWRVWEIIAEIDRRFRLERAADGLDEETINRMAPIQHGTVHMAWIACYAAYSINGVAALHTEIIKAETLADWYALWPEKFNNKTNGVTPRRWLRMINPGLSDLLTRLSGSDDWVTDLDELKKLRSYADDKSVLEELRAIKAANKQDFAEWILERQGIEIDPESIFDVQIKRLHEYKRQLMNALYVLDLYFRIKEDGLTDIPARTVIFGAKAAPGYVRAKAIIKLINSIADLVNNDPEVSPLLKVVFVENYNVSPAEHILPASDVSEQISTAGKEASGTSNMKFMMNGALTLGTMDGANVEIVDSVGEENAYIFGARVEELPALRESYKPYELYETVPGLKRALDALDNGTLNDNNSGLFYDLKHSLIHGYGKDASDTYYVLGDFADYRETRDRMAADYASDPLGWARMAWINICESGRFSSDRTIRDYATEIWKLEPTPAVKK
>2c4m_C mol:protein length:796 GLYCOGEN PHOSPHORYLASE
MSPEKQPLPAALVGSHVRAAAGTPADLATDRKFWTGLSRAVQERIADDWERTREAYGAARQQHYFSAEFLMGRALLNNLTNLGLVDEAAAATRELGHELTDILEIENDAALGNGGLGRLAACFLDSAVTQDYPVTGYGLLYRFGLFRQSFNEGFQVEKPDPWREEEYPFTIRRASDQLVVCFDDMKTRAIPYDMPITGYGTHNVGTLRLWKAEPWEEFDYDAFNAQRFTDAIIERERVSDICRVLYPNDTTYEGKKLRVRQQYFFTSASLQAMIQDHLAHHKDLSNFAEFHSVQLNDTHPVLAIPELMRLLMDEHDMGWEESWAIVSKTFAYTNHTVLTEALEQWDEQIFQQLFWRVWEIIAEIDRRFRLERAADGLDEETINRMAPIQHGTVHMAWIACYAAYSINGVAALHTEIIKAETLADWYALWPEKFNNKTNGVTPRRWLRMINPGLSDLLTRLSGSDDWVTDLDELKKLRSYADDKSVLEELRAIKAANKQDFAEWILERQGIEIDPESIFDVQIKRLHEYKRQLMNALYVLDLYFRIKEDGLTDIPARTVIFGAKAAPGYVRAKAIIKLINSIADLVNNDPEVSPLLKVVFVENYNVSPAEHILPASDVSEQISTAGKEASGTSNMKFMMNGALTLGTMDGANVEIVDSVGEENAYIFGARVEELPALRESYKPYELYETVPGLKRALDALDNGTLNDNNSGLFYDLKHSLIHGYGKDASDTYYVLGDFADYRETRDRMAADYASDPLGWARMAWINICESGRFSSDRTIRDYATEIWKLEPTPAVKK
>2c4m_D mol:protein length:796 GLYCOGEN PHOSPHORYLASE
MSPEKQPLPAALVGSHVRAAAGTPADLATDRKFWTGLSRAVQERIADDWERTREAYGAARQQHYFSAEFLMGRALLNNLTNLGLVDEAAAATRELGHELTDILEIENDAALGNGGLGRLAACFLDSAVTQDYPVTGYGLLYRFGLFRQSFNEGFQVEKPDPWREEEYPFTIRRASDQLVVCFDDMKTRAIPYDMPITGYGTHNVGTLRLWKAEPWEEFDYDAFNAQRFTDAIIERERVSDICRVLYPNDTTYEGKKLRVRQQYFFTSASLQAMIQDHLAHHKDLSNFAEFHSVQLNDTHPVLAIPELMRLLMDEHDMGWEESWAIVSKTFAYTNHTVLTEALEQWDEQIFQQLFWRVWEIIAEIDRRFRLERAADGLDEETINRMAPIQHGTVHMAWIACYAAYSINGVAALHTEIIKAETLADWYALWPEKFNNKTNGVTPRRWLRMINPGLSDLLTRLSGSDDWVTDLDELKKLRSYADDKSVLEELRAIKAANKQDFAEWILERQGIEIDPESIFDVQIKRLHEYKRQLMNALYVLDLYFRIKEDGLTDIPARTVIFGAKAAPGYVRAKAIIKLINSIADLVNNDPEVSPLLKVVFVENYNVSPAEHILPASDVSEQISTAGKEASGTSNMKFMMNGALTLGTMDGANVEIVDSVGEENAYIFGARVEELPALRESYKPYELYETVPGLKRALDALDNGTLNDNNSGLFYDLKHSLIHGYGKDASDTYYVLGDFADYRETRDRMAADYASDPLGWARMAWINICESGRFSSDRTIRDYATEIWKLEPTPAVKK

References and links

Current molecular structure file and data about current molecular structure file and NFT token based on it with
PDBID: 2C4M
TITLE: Starch phosphorylase: structural studies explain oxyanion-dependent kinetic stability and regulatory control.
DOI:
AUTHORS: Purvis, A., Nidetzky, B., Watson, K.
ACCESSION DATE: 10/20/05
Obtained at RCSB PDB https://rcsb.org
RCSB Link: https://www.rcsb.org/structure/2C4M