Takashi Ohsako scite author profile

The male sterile mutation, misfire (mfr), of Drosophila melanogaster is a novel paternal effect, fertilization defective mutant that effects sperm head decondensation. mfr sperm were motile, appeared normal morphologically and were transferred to the female during copulation. However, less than 0.1% of eggs laid by females mated to mfr males hatched. Although mfr sperm entered eggs at a high frequency (93%), 99% of the inseminated eggs did not initiate the first nuclear division. Unlike wild type fertilizing sperm, the position and shape of mfr sperm tails within the egg were not constant, but varied in a seemingly random manner. The heads of inseminating mutant sperm were always located near the surface of eggs just underlying the egg plasma membrane, and maintained their needle-like shape indicating the failure of nuclear decondensation. Further observations revealed that plasma membrane of inseminating sperm appeared intact, including the head region. These phenotypes were equivalent to those of sneaky (snky), another fertilization defective male sterile mutation. Our observations strongly suggest that mfr mutant males are sterile because their inseminating sperm fail to form a male pronucleus due to the inability of the sperm to properly respond to egg factors responsible for the breakdown of the plasma membrane. Although mfr and snky mutations were phenotypically identical, they mapped to cytologically distinct genetic loci and no genetic interactions were observed, suggesting that at least two distinct paternal gene products are involved in the early stages of pronuclear formation.

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Sperm of the wasted mutant are wasted when females utilize the stored sperm in Drosophila melanogaster

Ohsako

Yamamoto

2011

Genes Genet. Syst.

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Females of many animal species store sperm after copulation for use in fertilization, but the mechanisms controlling sperm storage and utilization are largely unknown. Here we describe a novel male sterile mutation of Drosophila melanogaster, wasted (wst), which shows defects in various processes of sperm utilization. The sperm of wst mutant males are stored like those of wild-type males in the female sperm storage organs, the spermathecae and seminal receptacles, after copulation and are released at each ovulation. However, an average of thirteen times more wst sperm than wild type sperm are released at each ovulation, resulting in rapid loss of sperm stored in seminal receptacles within a few days after copulation. wst sperm can enter eggs efficiently at 5 hr after copulation, but the efficiency of sperm entry decreases significantly by 24 hr after copulation, suggesting that wst sperm lose their ability to enter eggs during storage. Furthermore, wst sperm fail to undergo nuclear decondensation, which prevents the process of fertilization even when sperm enter eggs. Our results indicate that the wst gene is essential for independent processes in the utilization of stored sperm; namely, regulation of sperm release from female storage organs, maintenance of sperm efficiency for entry into eggs, and formation of the male pronucleus in the egg at fertilization.

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The Gene Search System: A Method for Efficient Detection and Rapid Molecular Identification of Genes in Drosophila melanogaster

et al. 1999

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We have constructed a P-element-based gene search vector for efficient detection of genes in Drosophila melanogaster. The vector contains two copies of the upstream activating sequence (UAS) enhancer adjacent to a core promoter, one copy near the terminal inverted repeats at each end of the vector, and oriented to direct transcription outward. Genes were detected on the basis of phenotypic changes caused by GAL4-dependent forced expression of vector-flanking DNA, and the transcripts were identified with reverse transcriptase PCR (RT-PCR) using the vector-specific primer and followed by direct sequencing. The system had a greater sensitivity than those already in use for gain-of-function screening: 64% of the vector insertion lines (394/613) showed phenotypes with forced expression of vector-flanking DNA, such as lethality or defects in adult structure. Molecular analysis of 170 randomly selected insertions with forced expression phenotypes revealed that 21% matched the sequences of cloned genes, and 18% matched reported expressed sequence tags (ESTs). Of the insertions in cloned genes, 83% were upstream of the protein-coding region. We discovered two new genes that showed sequence similarity to human genes, Ras-related protein 2 and microsomal glutathione S-transferase. The system can be useful as a tool for the functional mapping of the Drosophila genome.

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The Gene Search System: Its Application to Functional Genomics inDrosophila Melanogaster

Aigaki

Ohsako

Toba

et al. 2001

Journal of Neurogenetics

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In Drosophila melanogaster, gain-of-function mutagenesis utilizing the GAL4-UAS system has been established, allowing identification of genes that may not be easily detectable by loss-of-function screening approaches. The conditional features of misexpression systems are especially useful for studying late-stage biological processes, such as those involving adult behavior or lifespan. The gene search system, incorporating a bidirectional misexpression vector, was used to screen for genes critical for longevity determination. We have identified several genes whose misexpression in adulthood extends the fly's lifespan. Phenotypic characterization of fly lines carrying a mis-expression vector, in conjunction with obtaining information about the genomic insertion sites, creates valuable resources for the systematic functional genomics in Drosophila.

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Takashi Ohsako

Drosophila lola encodes a family of BTB-transcription regulators with highly variable C-terminal domains containing zinc finger motifs

The Drosophila misfire gene has an essential role in sperm activation during fertilization.

Sperm of the wasted mutant are wasted when females utilize the stored sperm in Drosophila melanogaster

The Gene Search System: A Method for Efficient Detection and Rapid Molecular Identification of Genes in Drosophila melanogaster

The Gene Search System: Its Application to Functional Genomics inDrosophila Melanogaster

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