List..of..PDB..structures..for.. .PNEUMOCYSTIS CARINII
Number of entries for given species: 91 (including superseded entries, shown in brown)
1 | 51
.PDB.Id
Title
1b2m   Three-dimensional structure of ribonulcease t1 complexed with an isosteric phosphonate analogue of gpu: alternate substrate binding modes and catalysis.
1bir   Ribonuclease t1, phe 100 to ala mutant complexed with 2' gmp
1bu4   Ribonuclease 1 complex with 2'gmp
1bvi   Ribonuclease t1 (wildtype) complexed with 2'gmp
1ch0   Rnase t1 variant with altered guanine binding segment
1det   Ribonuclease t1 carboxymethylated at glu 58 in complex with 2'gmp
1eb6   Deuterolysin from aspergillus oryzae
1fys   Ribonuclease t1 v16c mutant
1fzu   Rnase t1 v78a mutant
1g02   Ribonuclease t1 v16s mutant
1gsp   Ribonuclease t1 complexed with 2',3'-cgps, 1 day
1hyf   Ribonuclease t1 v16a mutant in complex with sr2+
1i0v   Ribonuclease t1 in complex with 2'gmp (form i crystal)
1i0x   Ribonuclease t1 in complex with 2'gmp (form ii crystal)
1i2e   Ribonuclease t1 v16a mutant, form i
1i2f   Ribonuclease t1 v16a mutant, form ii
1i2g   Ribonuclease t1 v16t mutant
1i3f   Ribonuclease t1 v89s mutant
1i3i   Ribonuclease t1 v78t mutant
1iyy   Nmr structure of gln25-ribonuclease t1, 24 structures
1izd   Crystal structure of aspergillus oryzae aspartic proteinase
1ize   Crystal structure of aspergillus oryzae aspartic proteinase with pepstatin
1lov   X-ray structure of the e58a mutant of ribonuclease t1 complexed with 3'-guanosine monophosphate
1low   X-ray structure of the h40a mutant of ribonuclease t1 complexed with 3'-guanosine monophosphate
1loy   X-ray structure of the h40a/e58a mutant of ribonuclease t1 complexed with 3'-guanosine monophosphate
1lra   Crystallographic study of glu 58 ala rnase t1(asterisk)2'-gu monophosphate at 1.9 angstroms resolution
1q9e   Rnase t1 variant with adenine specificity
1rga   Crystal structure of rnase t1 with 3'-gmp and guanosine: a product complex
1rgc   The complex between ribonuclease t1 and 3'-guanylic acid suggests geometry of enzymatic reaction path. An x-ray study
1rgk   Rnase t1 mutant glu46gln binds the inhibitors 2'gmp and 2'amp at the 3' subsite
1rgl   Rnase t1 mutant glu46gln binds the inhibitors 2'gmp and 2'amp at the 3' subsite
1rhl   Ribonuclease t1 complexed with 2'gmp/g23a mutant
1rls   Crystal structure of rnase t1 complexed with the product nucleotide 3'-gmp. Structural evidence for direct interaction of histidine 40 and glutamic acid 58 with the 2'-hydroxyl group of ribose
1rn1   Three-dimensional structure of gln 25-ribonuclease t1 at 1.84 angstroms resolution: structural variations at the base recognition and catalytic sites
1rn4   His92ala mutation in ribonuclease t1 induces segmental flexibility. An x-ray study
1rnt   Restrained least-squares refinement of the crystal structure of the ribonuclease t1(asterisk)2(prime)- guanylic acid complex at 1.9 angstroms resolution
1trp   X-ray crystallographic and calorimeric studies of the effects of the mutation trp 59 tyr in ribonuclease t1
1trq   X-ray crystallographic and calorimeric studies of the effects of the mutation trp 59 tyr in ribonuclease t1
1tto   Crystal structure of the rnase t1 variant r2
1ygw   Nmr structure of ribonuclease t1, 34 structures
2aad   The role of histidine-40 in ribonuclease t1 catalysis: three-dimensional structures of the partially active his40lys mutant
2aae   The role of histidine-40 in ribonuclease t1 catalysis: three-dimensional structures of the partially active his40lys mutant
2bir   Additivity of substrate binding in ribonuclease t1 (y42a mutant)
2bu4   Ribonuclease t1 complex with 2'gmp
2gsp   Ribonuclease t1/2',3'-cgps and 3'-gmp, 2 days
2guy   Orthorhombic crystal structure (space group p21212) of asper niger alpha-amylase at 1.6 a resolution
2gvy   Monoclinic crystal form of aspergillus niger alpha-amylase i with maltose at 1.8 a resolution
2hoh   Ribonuclease t1 (n9a mutant) complexed with 2'gmp
2rnt   Three-dimensional structure of ribonuclease t1 complexed with guanylyl-2(prime),5(prime)-guanosine at 1.8 angstroms resolution
2taa   Structure and possible catalytic residues of taka-amylase a