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Items: 1 to 20 of 102

1.

Crystal structures of HINT demonstrate that histidine triad proteins are GalT-related nucleotide-binding proteins.

Brenner C, Garrison P, Gilmour J, Peisach D, Ringe D, Petsko GA, Lowenstein JM.

Nat Struct Biol. 1997 Mar;4(3):231-8.

3.

The histidine triad superfamily of nucleotide-binding proteins.

Brenner C, Bieganowski P, Pace HC, Huebner K.

J Cell Physiol. 1999 Nov;181(2):179-87. Review.

4.

MAD analysis of FHIT, a putative human tumor suppressor from the HIT protein family.

Lima CD, D'Amico KL, Naday I, Rosenbaum G, Westbrook EM, Hendrickson WA.

Structure. 1997 Jun 15;5(6):763-74.

5.

Structural characterization of human histidine triad nucleotide-binding protein 2, a member of the histidine triad superfamily.

Maize KM, Wagner CR, Finzel BC.

FEBS J. 2013 Jul;280(14):3389-98. doi: 10.1111/febs.12330. Epub 2013 Jun 10.

6.

Hit proteins, mitochondria and cancer.

Martin J, St-Pierre MV, Dufour JF.

Biochim Biophys Acta. 2011 Jun;1807(6):626-32. doi: 10.1016/j.bbabio.2011.02.001. Epub 2011 Mar 1. Review.

7.

Crystal structure of HINT from Helicobacter pylori.

Tarique KF, Devi S, Abdul Rehman SA, Gourinath S.

Acta Crystallogr F Struct Biol Commun. 2016 Jan;72(Pt 1):42-8. doi: 10.1107/S2053230X15023316. Epub 2016 Jan 1.

8.

Enzyme HIT.

Holm L, Sander C.

Trends Biochem Sci. 1997 Apr;22(4):116-7. No abstract available.

PMID:
9149529
9.
10.
11.

Three-dimensional structure of galactose-1-phosphate uridylyltransferase from Escherichia coli at 1.8 A resolution.

Wedekind JE, Frey PA, Rayment I.

Biochemistry. 1995 Sep 5;34(35):11049-61.

PMID:
7669762
12.

Adenosine monophosphoramidase activity of Hint and Hnt1 supports function of Kin28, Ccl1, and Tfb3.

Bieganowski P, Garrison PN, Hodawadekar SC, Faye G, Barnes LD, Brenner C.

J Biol Chem. 2002 Mar 29;277(13):10852-60. Epub 2002 Jan 22.

13.

Structures of yeast Apa2 reveal catalytic insights into a canonical AP₄A phosphorylase of the histidine triad superfamily.

Hou WT, Li WZ, Chen Y, Jiang YL, Zhou CZ.

J Mol Biol. 2013 Aug 9;425(15):2687-98. doi: 10.1016/j.jmb.2013.04.018. Epub 2013 Apr 26.

14.

Genetic, biochemical, and crystallographic characterization of Fhit-substrate complexes as the active signaling form of Fhit.

Pace HC, Garrison PN, Robinson AK, Barnes LD, Draganescu A, Rösler A, Blackburn GM, Siprashvili Z, Croce CM, Huebner K, Brenner C.

Proc Natl Acad Sci U S A. 1998 May 12;95(10):5484-9.

15.

Purification and crystallization of complexes modeling the active state of the fragile histidine triad protein.

Brenner C, Pace HC, Garrison PN, Robinson AK, Rosler A, Liu XH, Blackburn GM, Croce CM, Huebner K, Barnes LD.

Protein Eng. 1997 Dec;10(12):1461-3.

17.

Role of the histidine triad-like motif in nucleotide hydrolysis by the rotavirus RNA-packaging protein NSP2.

Carpio RV, González-Nilo FD, Jayaram H, Spencer E, Prasad BV, Patton JT, Taraporewala ZF.

J Biol Chem. 2004 Mar 12;279(11):10624-33. Epub 2003 Dec 29.

18.

Crystal structures of two human pyrophosphorylase isoforms in complexes with UDPGlc(Gal)NAc: role of the alternatively spliced insert in the enzyme oligomeric assembly and active site architecture.

Peneff C, Ferrari P, Charrier V, Taburet Y, Monnier C, Zamboni V, Winter J, Harnois M, Fassy F, Bourne Y.

EMBO J. 2001 Nov 15;20(22):6191-202.

19.

[Histidine triad protein superfamily--biological function and enzymatic activity].

Krakowiak A, Fryc I.

Postepy Biochem. 2012;58(3):302-13. Review. Polish.

PMID:
23373416
20.

The biochemical role of glutamine 188 in human galactose-1-phosphate uridyltransferase.

Lai K, Willis AC, Elsas LJ.

J Biol Chem. 1999 Mar 5;274(10):6559-66.

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