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Items: 1 to 20 of 147

1.

Expression of a human serum albumin fragment (consisting of subdomains IA, IB, and IIA) and a study of its properties.

Park DS, Petersen CE, Ha C, Harohalli K, Feix JB, Bhagavan NV.

IUBMB Life. 1999 Aug;48(2):169-74.

2.

Mutagenesis studies of thyroxine binding to human serum albumin define an important structural characteristic of subdomain 2A.

Petersen CE, Ha CE, Harohalli K, Park D, Bhagavan NV.

Biochemistry. 1997 Jun 10;36(23):7012-7.

PMID:
9188698
3.

Histidine146 of human serum albumin plays a prominent role at the interface of subdomains IA and IIA in allosteric ligand binding.

Kaneko K, Chuang VT, Minomo A, Yamasaki K, Bhagavan NV, Maruyama T, Otagiri M.

IUBMB Life. 2011 Apr;63(4):277-85. doi: 10.1002/iub.457.

4.
5.

Structural investigations of a new familial dysalbuminemic hyperthyroxinemia genotype.

Petersen CE, Ha CE, Harohalli K, Park DS, Feix JB, Isozaki O, Bhagavan NV.

Clin Chem. 1999 Aug;45(8 Pt 1):1248-54.

6.

Site-directed mutagenesis studies of human serum albumin define tryptophan at amino acid position 214 as the principal site for nitrosation.

Harohalli K, Petersen CE, Ha CE, Feix JB, Bhagavan NV.

J Biomed Sci. 2002 Jan-Feb;9(1):47-58.

PMID:
11810025
7.

In vitro and in vivo properties of recombinant human serum albumin from Pichia pastoris purified by a method of short processing time.

Watanabe H, Yamasaki K, Kragh-Hansen U, Tanase S, Harada K, Suenaga A, Otagiri M.

Pharm Res. 2001 Dec;18(12):1775-81.

PMID:
11785700
8.

Development of expression systems for the production of recombinant human serum albumin using the MOX promoter in Hansenula polymorpha DL-1.

Kang HA, Kang W, Hong WK, Kim MW, Kim JY, Sohn JH, Choi ES, Choe KB, Rhee SK.

Biotechnol Bioeng. 2001 Sep;76(2):175-85.

PMID:
11505387
9.

Analysis of tryptophan fluorescence lifetimes in a series of human serum albumin mutants with substitutions in subdomain 2A.

Siemiarczuk A, Petersen CE, Ha CE, Yang J, Bhagavan NV.

Cell Biochem Biophys. 2004;40(2):115-22.

PMID:
15054218
10.
11.
12.

Role of arg-410 and tyr-411 in human serum albumin for ligand binding and esterase-like activity.

Watanabe H, Tanase S, Nakajou K, Maruyama T, Kragh-Hansen U, Otagiri M.

Biochem J. 2000 Aug 1;349 Pt 3:813-9.

13.

Expression of a human serum albumin variant with high affinity for thyroxine.

Petersen CE, Ha CE, Mandel M, Bhagavan NV.

Biochem Biophys Res Commun. 1995 Sep 25;214(3):1121-9.

PMID:
7575519
14.

[Expression of human serum albumin in metylotrophic yeast Pichia pastoris and its structural and functional analysis].

Bobik TV, Vorob'ev II, Ponomarenko NA, Gabibov AG, Miroshnikov AI.

Bioorg Khim. 2008 Jan-Feb;34(1):56-62. Russian.

PMID:
18365738
15.

The location of the high- and low-affinity bilirubin-binding sites on serum albumin: ligand-competition analysis investigated by circular dichroism.

Goncharova I, Orlov S, Urbanová M.

Biophys Chem. 2013 Oct-Nov;180-181:55-65. doi: 10.1016/j.bpc.2013.06.004. Epub 2013 Jun 22.

PMID:
23838624
16.
17.

Chain length-dependent binding of fatty acid anions to human serum albumin studied by site-directed mutagenesis.

Kragh-Hansen U, Watanabe H, Nakajou K, Iwao Y, Otagiri M.

J Mol Biol. 2006 Oct 27;363(3):702-12. Epub 2006 Aug 25.

PMID:
16979183
19.

Probing the structure of the warfarin-binding site on human serum albumin using site-directed mutagenesis.

Petersen CE, Ha CE, Curry S, Bhagavan NV.

Proteins. 2002 May 1;47(2):116-25.

PMID:
11933059
20.

Time-resolved fluorescence studies on site-directed mutants of human serum albumin.

Helms MK, Petersen CE, Bhagavan NV, Jameson DM.

FEBS Lett. 1997 May 12;408(1):67-70.

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