Vasker Bhattacherjee scite author profile

The 5' end of the NS-4 protein of different genotypes of hepatitis C virus (HCV) is highly variable in nucleotide and inferred amino acid sequence, with frequent predicted amino acid substitutions between all six of the major HCV genotypes described to date. This region has been shown to be antigenic by epitope mapping, and elicits antibody in HCV-infected individuals with a detectable type-specific component. We have used this sequence data to specify branched peptides for an indirect binding/competition assay to detect typespecific antibody to each major genotype. A total of 183 out of 210 samples (87%) from blood donors and patients with chronic hepatitis C infected with genotypes 1 to 6 showed detectable type-specific antibody to NS-4 peptides that in almost all cases (> 97 %) corresponded to the genotype detected by a PCR typing method. These findings demonstrate the existence of major antigenic differences between genotypes of HCV, and indicate how infection with different variants of HCV may be detected by a serological test.

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Functional interaction between Smad, CREB binding protein, and p68 RNA helicase

Warner

Bhattacherjee

Yin

et al. 2004

Biochemical and Biophysical Research Communications

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Involvement of Candida albicans NADH dehydrogenase complex I in filamentation

McDonough

Bhattacherjee

Sadlon

et al. 2002

Fungal Genetics and Biology

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Molecular analysis of the LYS2 gene of Candida albicans : homology to peptide antibiotic synthetases and the regulation of the ⋅-aminoadipate reductase

Suvarna¹,

Seah²,

Bhattacherjee³

et al. 1998

Current Genetics

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The unique alpha-aminoadipate pathway for lysine biosynthesis is present only in fungi and involves eight enzyme steps. alpha-Aminoadipate semialdehyde dehydrogenase, commonly called alpha-aminoadipate reductase (AAR), catalyzes the conversion of alpha-aminoadipic acid to alpha-aminoadipic semialdehyde by a novel mechanism. Two genes, LYS2 and LYS5, encode the heterodimeric enzyme in Saccharomyces cerevisiae. The LYS2 gene of Candida albicans was shown to be contained in the 4.8-kb insert of the plasmid pCaLYS2. This plasmid complemented lys2 mutants of both S. cerevisiae and C. albicans. The S. cerevisiae and C. albicans Lys2(+) transformants exhibited 138% and 160% of wild-type AAR activity, respectively. The DNA-sequence analysis of the 4.8-kb region in plasmid pCaLYS2 and a PCR product from genomic DNA which overlapped with the 4.8-kb insert revealed a continuous ORF of 4173 nucleotides encoding 1391 amino-acid residues. The C. albicans LYS2 ORF exhibited 63.0% identity at the nucleotide level and 56.2% identity at the amino-acid level to the LYS2 gene of S. cerevisiae. The ORF is preceded by consensus sequences for the TATA-, CAAT- and GCN4-box elements. An S. cerevesiae-type transcription termination signal is seen in the 3' flanking region. The deduced amino-acid sequence revealed a motif for an AMP-binding site and also the highly conserved core sequences common to peptide antibiotic synthetases. The LYS2 mRNA and alpha-aminoadipate reductase activity were repressed to a higher level in YEPD-grown cells than in cells grown in the presence of lysine or minimal medium. Additionally, AAR was shown to be feedback-inhibited by lysine and the lysine analog, thialysine. The results of the present report reveal the molecular characteristics of the LYS2 gene of C. albicans, its homology to peptide antibiotic synthetases, its divergence from the LYS2 gene of S. cerevisiae, and the regulation of AAR in C. albicans.

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