Mechanistic studies of the phytochromobilin synthase HY2 from Arabidopsis.

Phytochromobilin (PPhiB) is an open chain tetrapyrrole molecule that functions as the chromophore of light-sensing phytochromes in plants. Derived from heme, PPhiB is synthesized through an open chain tetrapyrrole intermediate, biliverdin IXalpha (BV), in the biosynthesis pathway. BV is subsequently reduced by the PPhiB synthase HY2 in plants. HY2 is a ferredoxin-dependent bilin reductase that catalyzes the reduction of the A-ring 2,3,3(1),3(2)-diene system to produce an ethylidene group for assembly with apophytochromes. In this study, we sought to determine the catalytic mechanism of HY2. Data from UV-visible and EPR spectroscopy showed that the HY2-catalyzed BV reaction proceeds via a transient radical intermediate. Site-directed mutagenesis showed several ionizable residues that are involved in the catalytic steps. Detailed analysis of these site-directed mutants highlighted a pair of aspartate residues central to proton donation and substrate positioning. A mechanistic prediction for the HY2 reaction is proposed. These results support the hypothesis that ferredoxin-dependent bilin reductases reduce BV through a radical mechanism, but their double bond specificity is decided by strategic placement of different proton-donating residues surrounding the bilin substrate in the active sites.

Glutamate decarboxylase genes and alcoholism in Han Taiwanese men.

OBJECTIVE: Glutamate decarboxylase (GAD), the rate-limiting enzyme in the synthesis of gamma-aminobutyric acid (GABA), may be involved in the development of alcoholism. This study examined the possible roles of the genes that code for 2 forms of GAD (GAD1 and GAD2) in the development of alcoholism. METHOD: An association study was conducted among 140 male alcoholic subjects meeting the DSM-III-R criteria for alcohol dependence and 146 controls recruited from the Han Taiwanese in community and clinical settings. Psychiatric assessment of drinking conditions was conducted using a Chinese version of the Schedules for Clinical Assessment in Neuropsychiatry. The SHEsis and Haploview programs were used in statistical analyses. RESULTS: Nine single-nucleotide polymorphisms (SNPs) at the GAD1 gene were valid for further statistics. Between alcoholic subjects and controls, significant differences were found in genotype distributions of SNP1 (p=0.000), SNP2 (p=0.015), SNP4 (p=0.015), SNP5 (p=0.031), SNP6 (p=0.012), and SNP8 (p=0.004) and in allele distributions of SNP1 (p=0.001), SNP2 (p=0.009), and SNP8 (p=0.009). Permutation tests of SNP1, SNP2, and SNP8 demonstrated significant differences in allele frequencies but not in 2 major haplotype blocks. Three valid SNPs at the GAD2 gene demonstrated no associations with alcoholism. Further permutation tests in the only 1 haplotype block or individual SNPs demonstrated no significant differences. CONCLUSIONS: This is the first report indicating a possible significant role of the GAD1 gene in the development of alcohol dependence and/or the course of alcohol withdrawal and outcome of alcoholism.