Kazumori Yazaki scite author profile

Abstract. Two different mRNA isoforms of the mouse Soxl 7 gene were isolated from adult mouse testis cDNAs. One form (referred to as form Sox17) encodes an Styrelated protein of 419 amino acids containing a single high mobility group box near the NH2 terminus, while the other form (referred to as form t-Sox17) shows a unique mRNA isoform of the Soxl 7 gene with a partial deletion of the HMG box region. Analysis of genomic DNA revealed that these two isoforms were produced at least by alternative splicing of the exon corresponding to the 5' untranslated region and NH2-terminal 102 amino acids. RNA analyses in the testis revealed that form Soxl7 is expressed in spermatogonia, and the expression clearly declines from the early pachytene spermatocyte stage onward. In contrast, expression of form t-Soxl7 began at the pachytene spermatocyte stage and was highly accumulated in round spermatids. Protein analyses revealed that t-Soxl7 isoforms, as well as Sox17 isoforms, were translated into the protein products in the testis, although the amount of t-Soxl7 products is lower in comparison to the high accumulation of t-Soxl7 mRNA. By the electrophoretic mobility-shift assay and the random selection assay using recombinant Soxl7 and t-Sox17 proteins, Soxl7 protein is a DNA-binding protein with a similar sequence specificity to Sry and the other members of Sox family proteins, while t-Soxl7 shows no apparent DNA-binding activity. Moreover, by a cotransfection experiment using a luciferase reporter gene, Soxl7 could stimulate transcription through its binding site, but t-Soxl7 had little effect on reporter gene expression. Thus, these findings suggest that Soxl7 may function as a transcriptional activator in the premeiotic germ cells, and that a splicing switch into t-Soxl7 may lead to the loss of its function in the postmeiotic germ cells.

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Expression of vomeronasal receptor genes in Xenopus laevis

Hagino-Yamagishi

Moriya

Kubo

et al. 2004

J of Comparative Neurology

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In the course of evolution, the vomeronasal organ (VNO) first appeared in amphibians. To understand the relationship between the VNO and the vomeronasal receptors, we isolated and analyzed the expression of the vomeronasal receptor genes of Xenopus laevis. We identified genes of the Xenopus V2R receptor family, which are predominantly expressed throughout the sensory epithelium of the VNO. The G-protein Go, which is coexpressed with V2Rs in the rodent VNO, was also extensively expressed throughout the vomeronasal sensory epithelium. These results strongly suggest that the V2Rs and Go are coexpressed in the vomeronasal receptor cells. The predominant expression of the Xenopus V2R families and the coexpression of the V2Rs and Go imply that V2Rs play important roles in the sensory transduction of Xenopus VNO. We found that these receptors were expressed not only in the VNO, but also in the posterolateral epithelial area of the principal cavity (PLPC). Electron microscopic study revealed that the epithelium of the PLPC is more like that of the VNO than that of the principal and the middle cavity. These results suggest that in adult Xenopus the V2Rs analyzed so far are predominantly expressed in the vomeronasal and vomeronasal-like epithelium. The analysis of V2R expression in Xenopus larvae demonstrates that V2Rs are predominantly expressed in the VNO even before metamorphosis.

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Structural and functional characterization of homo-oligomeric complexes of α and β chaperonin subunits from the hyperthermophilic archaeum Thermococcus strain KS-1

Yoshida¹,

Yohda²,

Iida³

et al. 2000

Journal of Molecular Biology

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A Putative Pheromone Receptor Gene Is Expressed in Two Distinct Olfactory Organs in Goats

Wakabayashi

Mori²,

Ichikawa³

et al. 2002

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Mammals possess two anatomically and functionally distinct olfactory systems. The olfactory epithelium (OE) detects volatile odorants, while the vomeronasal organ (VNO) detects pheromones that elicit innate reproductive and social behavior within a species. In rodent VNO, three multigene families that encode the putative pheromone receptors, V1Rs, V2Rs and V3Rs, have been expressed. We have identified the V1R homologue genes from goat genomic DNA (gV1R genes). Deduced amino acid sequences of gV1R genes show 40-50% and 20-25% identity to those of rat and mouse V1R and V3R genes, respectively, suggesting that the newly isolated goat receptor genes are members of the V1R gene family. One gene (gV1R1 gene) has an open reading frame that encodes a polypeptide of 309 amino acids. It is expressed not only in VNO but also in OE. In situ hybridization analysis revealed that gV1R1 -expressing cells were localized in neuropithelial layers of VNO and OE. These results suggest that the goat may detect pheromone molecules through two distinct olfactory organs.

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Depletion of definitive gut endoderm inSox17-null mutant mice

et al. 2002

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In the mouse, the definitive endoderm is derived from the epiblast during gastrulation, and, at the early organogenesis stage, forms the primitive gut tube, which gives rise to the digestive tract, liver, pancreas and associated visceral organs. The transcription factors, Sox17 (a Sry-related HMG box factor) and its upstream factors, Mixer (homeobox factor) and Casanova (a novel Sox factor), have been shown to function as endoderm determinants in Xenopus and zebrafish, respectively. However, whether the mammalian orthologues of these genes are also involved with endoderm formation is not known. We show that Sox17–/– mutant embryos are deficient of gut endoderm. The earliest recognisable defect is the reduced occupancy by the definitive endoderm in the posterior and lateral region of the prospective mid- and hindgut of the headfold-stage embryo. The prospective foregut develops properly until the late neural plate stage. Thereafter, elevated levels of apoptosis lead to a reduction in the population of the definitive endoderm in the foregut. In addition, the mid- and hindgut tissues fail to expand. These are accompanied by the replacement of the definitive endoderm in the lateral region of the entire length of the embryonic gut by cells that resemble the visceral endoderm. In the chimeras, although Sox17-null ES cells can contribute unrestrictedly to ectodermal and mesodermal tissues, few of them could colonise the foregut endoderm and they are completely excluded from the mid- and hindgut endoderm. Our findings indicate an important role of Sox17 in endoderm development in the mouse, highlighting the idea that the molecular mechanism for endoderm formation is likely to be conserved among vertebrates.

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Kazumori Yazaki

Identification of two Sox17 messenger RNA isoforms, with and without the high mobility group box region, and their differential expression in mouse spermatogenesis.

Expression of vomeronasal receptor genes in Xenopus laevis

Structural and functional characterization of homo-oligomeric complexes of α and β chaperonin subunits from the hyperthermophilic archaeum Thermococcus strain KS-1

A Putative Pheromone Receptor Gene Is Expressed in Two Distinct Olfactory Organs in Goats

Depletion of definitive gut endoderm inSox17-null mutant mice

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