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Items: 1 to 20 of 99

1.

Structure of human salivary alpha-amylase at 1.6 A resolution: implications for its role in the oral cavity.

Ramasubbu N, Paloth V, Luo Y, Brayer GD, Levine MJ.

Acta Crystallogr D Biol Crystallogr. 1996 May 1;52(Pt 3):435-46.

PMID:
15299664
2.

Refined molecular structure of pig pancreatic alpha-amylase at 2.1 A resolution.

Larson SB, Greenwood A, Cascio D, Day J, McPherson A.

J Mol Biol. 1994 Feb 4;235(5):1560-84.

PMID:
8107092
3.

Salivary alpha-amylase: role in dental plaque and caries formation.

Scannapieco FA, Torres G, Levine MJ.

Crit Rev Oral Biol Med. 1993;4(3-4):301-7. Review.

4.

Crystal structure of yellow meal worm alpha-amylase at 1.64 A resolution.

Strobl S, Maskos K, Betz M, Wiegand G, Huber R, Gomis-Rüth FX, Glockshuber R.

J Mol Biol. 1998 May 8;278(3):617-28.

PMID:
9600843
5.

Structural relationship between the enzymatic and streptococcal binding sites of human salivary alpha-amylase.

Scannapieco FA, Bhandary K, Ramasubbu N, Levine MJ.

Biochem Biophys Res Commun. 1990 Dec 31;173(3):1109-15.

PMID:
2125215
6.

Human salivary alpha-amylase Trp58 situated at subsite -2 is critical for enzyme activity.

Ramasubbu N, Ragunath C, Mishra PJ, Thomas LM, Gyémánt G, Kandra L.

Eur J Biochem. 2004 Jun;271(12):2517-29.

7.
8.

Substrate recognition mechanism of alpha-1,6-glucosidic linkage hydrolyzing enzyme, dextran glucosidase from Streptococcus mutans.

Hondoh H, Saburi W, Mori H, Okuyama M, Nakada T, Matsuura Y, Kimura A.

J Mol Biol. 2008 May 9;378(4):913-22. doi: 10.1016/j.jmb.2008.03.016. Epub 2008 Mar 18.

PMID:
18395742
9.

A single residue mutation abolishes attachment of the CBM26 starch-binding domain from Lactobacillus amylovorus alpha-amylase.

Rodríguez-Sanoja R, Oviedo N, Escalante L, Ruiz B, Sánchez S.

J Ind Microbiol Biotechnol. 2009 Mar;36(3):341-6. doi: 10.1007/s10295-008-0502-y. Epub 2008 Dec 4.

PMID:
19052787
10.

The 'pair of sugar tongs' site on the non-catalytic domain C of barley alpha-amylase participates in substrate binding and activity.

Bozonnet S, Jensen MT, Nielsen MM, Aghajari N, Jensen MH, Kramhøft B, Willemoës M, Tranier S, Haser R, Svensson B.

FEBS J. 2007 Oct;274(19):5055-67. Epub 2007 Sep 4.

11.

Probing the role of aromatic residues at the secondary saccharide-binding sites of human salivary alpha-amylase in substrate hydrolysis and bacterial binding.

Ragunath C, Manuel SG, Venkataraman V, Sait HB, Kasinathan C, Ramasubbu N.

J Mol Biol. 2008 Dec 31;384(5):1232-48. doi: 10.1016/j.jmb.2008.09.089. Epub 2008 Oct 14.

12.

D-Ribulose 5-phosphate 3-epimerase: functional and structural relationships to members of the ribulose-phosphate binding (beta/alpha)8-barrel superfamily.

Akana J, Fedorov AA, Fedorov E, Novak WR, Babbitt PC, Almo SC, Gerlt JA.

Biochemistry. 2006 Feb 28;45(8):2493-503.

PMID:
16489742
13.

Crystal structure of glycoside hydrolase family 78 alpha-L-Rhamnosidase from Bacillus sp. GL1.

Cui Z, Maruyama Y, Mikami B, Hashimoto W, Murata K.

J Mol Biol. 2007 Nov 23;374(2):384-98. Epub 2007 Sep 8.

PMID:
17936784
14.

Crystal structure of the polyextremophilic alpha-amylase AmyB from Halothermothrix orenii: details of a productive enzyme-substrate complex and an N domain with a role in binding raw starch.

Tan TC, Mijts BN, Swaminathan K, Patel BK, Divne C.

J Mol Biol. 2008 May 9;378(4):852-70. doi: 10.1016/j.jmb.2008.02.041. Epub 2008 Feb 29.

PMID:
18387632
15.

Expression, characterization, and biochemical properties of recombinant human salivary amylase.

Ragunath C, Sundar K, Ramasubbu N.

Protein Expr Purif. 2002 Mar;24(2):202-11.

PMID:
11858714
17.

Flavonoids for controlling starch digestion: structural requirements for inhibiting human alpha-amylase.

Lo Piparo E, Scheib H, Frei N, Williamson G, Grigorov M, Chou CJ.

J Med Chem. 2008 Jun 26;51(12):3555-61. doi: 10.1021/jm800115x. Epub 2008 May 29.

PMID:
18507367
18.

Examination of the active sites of human salivary alpha-amylase (HSA).

Kandra L, Gyémánt G.

Carbohydr Res. 2000 Nov 17;329(3):579-85.

PMID:
11128586
19.

Crystal structure of human T-protein of glycine cleavage system at 2.0 A resolution and its implication for understanding non-ketotic hyperglycinemia.

Okamura-Ikeda K, Hosaka H, Yoshimura M, Yamashita E, Toma S, Nakagawa A, Fujiwara K, Motokawa Y, Taniguchi H.

J Mol Biol. 2005 Sep 2;351(5):1146-59.

PMID:
16051266
20.

Structure of the complex of a yeast glucoamylase with acarbose reveals the presence of a raw starch binding site on the catalytic domain.

Sevcík J, Hostinová E, Solovicová A, Gasperík J, Dauter Z, Wilson KS.

FEBS J. 2006 May;273(10):2161-71.

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