C-terminal region amino acid substitutions contribute to catalytic differences between murine class alpha glutathione transferases mGSTA1-1 and mGSTA2-2 toward anti-diol epoxide isomers of benzo[c]phenanthrene

scientific article published in June 2001

C-terminal region amino acid substitutions contribute to catalytic differences between murine class alpha glutathione transferases mGSTA1-1 and mGSTA2-2 toward anti-diol epoxide isomers of benzo[c]phenanthrene is …

instance of (P31):

scholarly article

Q13442814

External links are

P356	DOI	10.1021/BI010363R
P698	PubMed publication ID	11401548

P2093	author name string	Gu Y
		Pal A
		Pan SS
		Singh SV
		Ji X
P433	issue	24
P407	language of work or name	English	Q1860
P304	page(s)	7047-7053
P577	publication date	2001-06-01
P1433	published in	Biochemistry	Q764876
P1476	title	C-terminal region amino acid substitutions contribute to catalytic differences between murine class alpha glutathione transferases mGSTA1-1 and mGSTA2-2 toward anti-diol epoxide isomers of benzo[c]phenanthrene
P478	volume	40

Reverse relations

cites work (P2860)

Q46367673	A conserved N-capping motif contributes significantly to the stabilization and dynamics of the C-terminal region of class Alpha glutathione S-transferases.
Q41825747	Reciprocal regulation of glutathione S-transferase spliceforms and the Drosophila c-Jun N-terminal kinase pathway components
Q41970895	The intersubunit lock-and-key motif in human glutathione transferase A1-1: role of the key residues Met51 and Phe52 in function and dimer stability

Search more.