Multi-male group and bidirectional sex change in the gobiid fish, <Emphasis Type="Italic">Trimma caudomaculatum</Emphasis>

The gobiid fish, Trimma caudomaculatum, lives in groups. We investigated group structure, mating system and bidirectional sex change of this species. Four groups examined contained more than two males. The males were significantly larger than the females. By the observations in aquarium, the males occupied a nest and the females visited the nest for spawning. While there was no specific pair bond, the males mated with multiple females. Hence, this species establishes multi-male groups. In the experiments, four larger females had changed sex to male among 25 females. The smallest male changed to female in the group of four males.     

Protandry of the flathead <Emphasis Type="Italic">Suggrundus meerdervoortii</Emphasis> (Teleostei: Platycephalidae)

Suggrundus meerdervoortii (Platycephalidae) has been hypothesized to pass through four phases, thus changing sex three times: the first male, first female, second male and second female phases. In this study, gonads of males and females were constructed from developed testis with an immature ovary and only oocytes, respectively. The females in this study were significantly larger than the males. There was no female in the size range of the hypothesized first female phase. Reversed sex change among protandrous fishes has not been reported in any other studies. Thus, the specimens of the hypothesized first female phase may be different from S. meerdervoortii. Therefore, this species should be considered protandrous without reversed sex change.     

Congenic mapping and candidate gene analysis for streptozotocin-induced diabetes susceptibility locus on mouse chromosome 11

Streptozotocin (STZ) has been widely used to induce diabetes in rodents. Strain-dependent variation in susceptibility to STZ has been reported; however, the gene(s) responsible for STZ susceptibility has not been identified. Here, we utilized the A/J-11^SM consomic strain and a set of chromosome 11 (Chr. 11) congenic strains developed from A/J-11^SM to identify a candidate STZ-induced diabetes susceptibility gene. The A/J strain exhibited significantly higher susceptibility to STZ-induced diabetes than the A/J-11^SM strain, confirming the existence of a susceptibility locus on Chr. 11. We named this locus Stzds1 (STZ-induced diabetes susceptibility 1). Congenic mapping using the Chr. 11 congenic strains indicated that the Stzds1 locus was located between D11Mit163 (27.72 Mb) and D11Mit51 (36.39 Mb). The Mpg gene, which encodes N-methylpurine DNA glycosylase (MPG), a ubiquitous DNA repair enzyme responsible for the removal of alkylated base lesions in DNA, is located within the Stzds1 region. There is a close relationship between DNA alkylation at an early stage of STZ action and the function of MPG. A Sanger sequence analysis of the Mpg gene revealed five polymorphic sites in the A/J genome. One variant, p.Ala132Ser, was located in a highly conserved region among rodent species and in the minimal region for retained enzyme activity of MPG. It is likely that structural alteration of MPG caused by the p.Ala132Ser mutation elicits increased recognition and excision of alkylated base lesions in DNA by STZ.

     

Biochemical characterization of a N-terminal fragment (p5) cleaved from fibroblast growth factor-binding protein (FGF-BP) in bovine milk in vitro

By means of successive gel filtration on a Superdex 30 pg column and Mono S column chromatography, a 5-kDa polypeptide (p5) was highly purified from the low molecular weight (LMW) fraction separated from the partially purified lactoferrin (bLF) fraction of bovine milk, and biochemically characterized as a phosphate acceptor for two protein kinases [cAMP-dependent protein kinase (PKA) and casein kinase 1delta (CK1delta)] in vitro. Purified p5 was identified as a fragment (N-terminal positions 24-51, 28 amino acid residues) cleaved from fibroblast growth factor-binding protein (FGF-BP, p37). Both purified p5 and synthetic p5 (sp5) were effectively phosphorylated by PKA, and also phosphorylated by CK1delta in the presence of two sulfated lipids [sulfatide or cholesterol-3-sulfate (CH-3S), SCS] in vitro. A novel phosphorylation site (RNRRGS) for CK1delta and a potent SCS-binding site (RNRR) on p5 were identified. The PKA-mediated phosphorylation of p5 was highly stimulated when incubated with either acidic FGF (aFGF) or bLF in vitro, but this phosphorylation was more sensitive to SCS than H-89 (a specific PKA inhibitor). Immunoprecipitate experiments revealed p5, but not the phosphorylated p5, to be directly bound to aFGF in vitro. These results show that (i) p5 has a high binding affinity with aFGF as well as bLF; (ii) the binding of SCS to p5 results in the selective inhibition of its phosphorylation by PKA; and (iii) SCS functions as an effective stimulator for the phosphorylation of p5 by CK1delta in vitro. In addition, p5 may play an important physiological role as a trafficking factor for the physiological interaction between aFGF group including endothelial cell growth factors and their binding proteins in vivo.     

Simultaneous determination of estriol and estriol 3-sulfate in serum by column-switching semi-micro high-performance liquid chromatography with ultraviolet and electrochemical detection

A column-switching HPLC with semi-microcolumn enabled us a direct and simultaneous analysis of estriol (E3) and estriol 3-sulfate (E3 S) in human serum in combination with ultraviolet (for E3 S) and electrochemical (for E3) detectors. The mobile phases (phosphate buffer pH 7.0) contained 5 mM tetra-n-butylammonium ion (TBA) as a counter ion for E3 S. Serum samples were diluted with 200 mM phosphate buffer (pH 7.0) containing 100 mM TBA, then injected to the pre-column. After serum proteins had flowed out from the pre-column, E3 and E3 S were transferred to the enrichment column. Subsequently the analytes were eluted to the analytical column. Detection limits of E3 and E3 S in human serum were 2.5 ng/ml and 295 ng/ml. Serum E3 and E3 S levels (mean±SD) of umbilical artery from 18 full-term healthy neonates were 33±23 ng/ml and 1.26±0.69 μg/ml, respectively.     

Characterization of Serine Endopeptidases in Cotyledons of Germinated Vigna mungo Seeds

Vigna mungo seeds. SEP activity was separated into two isoforms by CM-cellulose column chromatography. These forms, termed SEP-1 and SEP-II, showed endopeptidase activities even at acidic pH, suggesting that SEPs are unique serine endopeptidases, since most serine proteases are optimum at neutral pH. Received 14 December 1998/ Accepted in revised form 22 February 1999     

RNA-based cooperative protein labeling that permits direct monitoring of the intracellular concentration change of an endogenous protein

Imaging the dynamics of proteins in living cells is a powerful means for understanding cellular functions at a deeper level. Here, we report a versatile method for spatiotemporal imaging of specific endogenous proteins in living mammalian cells. The method employs a bifunctional aptamer capable of selective protein recognition and fluorescent probe-binding, which is induced only when the aptamer specifically binds to its target protein. An aptamer for β-actin protein preferentially recognizes its monomer forms over filamentous forms, resulting in selective G-actin staining in both fixed and living cells. Through actin-drug treatment, the method permitted direct monitoring of the intracellular concentration change of endogenous G-actin. This protein-labeling method, which is highly selective and non-covalent, provides rich insights into the study of spatiotemporal protein dynamics in living cells.