Takeshi Sakiyama scite author profile

Heading time in bread wheat (Triticum aestivum L.) is determined by three characters – vernalization requirement, photoperiodic sensitivity and narrow‐sense earliness (earliness per se) – which are involved in the phase transition from vegetative to reproductive growth. The wheat APETALA1 (AP1)‐like MADS‐box gene, wheat AP1 (WAP1, identical with VRN1), has been identified as an integrator of vernalization and photoperiod flowering promotion pathways. A MADS‐box gene, SUPPRESSOR OF OVEREXPRESSION OF CO 1 (SOC1) is an integrator of flowering pathways in Arabidopsis. In this study, we isolated a wheat ortholog of SOC1, wheat SOC1 (WSOC1), and investigated its relationship to WAP1 in the flowering pathway. WSOC1 is expressed in young spikes but preferentially expressed in leaves. Expression starts before the phase transition and is maintained during the reproductive growth phase. Overexpression of WSOC1 in transgenic Arabidopsis plants caused early flowering under short‐day conditions, suggesting that WSOC1 functions as a flowering activator in Arabidopsis. WSOC1 expression is affected neither by vernalization nor photoperiod, whereas it is induced by gibberellin at the seedling stage. Furthermore, WSOC1 is expressed in transgenic wheat plants in which WAP1 expression is cosuppressed. These findings indicate that WSOC1 acts in a pathway different from the WAP1‐related vernalization and photoperiod pathways.

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Neuropathic Gaucher's Disease with Normal 4− MethyIumbelliferyl-β-glucosidase Activity in the Liver

Ōwada

Sakiyama

Kitagawa

1977

Pediatr Res

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Retrospective survey of urea cycle disorders: Part 1. Clinical and laboratory observations of thirty‐two Japanese male patients with ornithine transcarbamylase deficiency

et al. 1991

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In a retrospective survey done from 1978-1988 in Japan, 32 male patients with ornithine transcarbamylase (OTC) deficiency were identified. We classified a neonatal and 2 late-onset groups, depending on clinical manifestations and the age at onset; group 1 (0-28 days; N = 10), group 2 (29 days-5 years; N = 13), and group 3 (greater than 5 years; N = 9). Compared to findings in the group 2 patients, there was a higher rate of mortality and a higher incidence of mental retardation in association with a great decrease in enzyme activity in group 1. In group 3, the mortality rate and enzyme activities were similar to those in group 1. However, patients in this group were asymptomatic prior to the first episode. Enzyme activities were measured mostly in autopsy samples. The serum citrulline levels (enzyme product) were highest in this group. Thus, the mutant enzymes were apparently labile with greater activities in vivo than in vitro. Treatments, including a protein-restricted diet, arginine supplementation, and sodium benzoate administration, resulted in a favorable prognosis for survivors with partial enzyme deficiency. We wish to emphasize that the incidence of late onset of this disease is higher than heretofore considered.

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I‐cell disease: clinical studies of 21 Japanese cases

et al. 1985

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Clinical pictures of 21 cases with I‐cell disease patients, 12 males and 9 females, were analyzed. Characteristic coarse facial features and shortness of stature were observed in all cases. In general, the motor development was found to be more severely retarded than the mental development of the patients. Rather little involvement of the nervous system seemed to cause somewhat acceptable mental development in some cases, and also cause the absence of epileptic seizures in all cases. Involvement of the cardiovascular system, especially progressive hypertrophic cardiomyopathy, could be highly responsible for frequent sudden death of I‐cell disease patients.

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Importance of deletion of T at nucleotide 1559 in the tissue-nonspecific alkaline phosphatase gene in Japanese patients with hypophosphatasia

Orimo

Goseki‐Sone

Inoue

et al. 2002

Journal of Bone and Mineral Metabolism

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The tissue-nonspecific alkaline phosphatase (TNSALP) gene in four unrelated patients with hypophosphatasia was analyzed using polymerase chain reaction-single strand conformation polymorphism and the direct sequencing method. Of the participating patients, one had childhood-type and three had perinatal-type disease. All carried a deletion of T at cDNA number 1559, which causes a frameshift downstream from codon L503, as a heterozygote. In the childhood-type patient, an F310L mutation was detected in the opposite allele. Similarly, a perinatal-type patient carried a V3651 mutation in the opposite allele. Mutations in the opposite alleles were not detected in the other two patients with perinatal-type disease. In addition, although both parents carried the deletion as a heterozygote in two families with childhood-type and perinatal-type disease, patients from those families were not homozygous for the deletion. Several single-nucleotide polymorphisms (SNPs) were also detected, which were shown to be useful for haplotype analysis. Allele frequency of the deletion among Japanese patients was 36% (10 of 28 alleles) but none occurred in Caucasian patients. These findings indicate that regardless of clinical type, deletion in the TNSALP gene occurs frequently among Japanese patients. Furthermore, haplotype analysis using SNPs suggested that the deletion might have derived from more than a single founder.

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