Temperature and the progeny sex-ratio in Sciara ocellaris (Diptera, Sciaridae)

Nigro, Rogério G.; Campos, Maria Cristina C.; Perondini, André Luiz Paranhos

doi:10.1590/s1415-47572007000100026

Cited by 34 publications

(24 citation statements)

References 31 publications

(41 reference statements)

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“…It has been shown that this variation depends on temperature: at 18-20°C, the sex ratio distribution, although variable, shows a median at approximately 50%, but at 24-29°C the sex ratio moves towards the production of more females. This change in sex ratio is not caused by a higher mortality among males, but by a transformation of male into females (Nigro, 1995;Campos et al, 1996;Nigro et al, 2007). This increase in female production is due to an increase in the number of embryos that eliminate one instead of the two paternally-derived chromosomes.…”

Section: Sex Determination Mechanisms Based On X Chromosome Eliminatimentioning

confidence: 99%

“…This increase in female production is due to an increase in the number of embryos that eliminate one instead of the two paternally-derived chromosomes. Temperature-shift experiments have shown that the temperature-sensitive period for the determination of the final sex ratio is from the mid-pupa stage to the emergence of the adult females (Nigro, 1995;Nigro et al, 2007), the period during which oogenesis takes place (Berry, 1941). It should be recalled that in Sciara females the number of oocytes is fixed during the early larval stages and that no further mitosis occurs nor are new oocytes produced in the pupal/adult stages (Berry, 1941).…”

Section: Sex Determination Mechanisms Based On X Chromosome Eliminatimentioning

confidence: 99%

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Sex-determining mechanisms in insects

2008

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Sex determination refers to the developmental programme that commits the embryo to either the male or the female pathway. The animal kingdom possesses a wealth of mechanisms via which gender is decided, all of which are represented among the insects. This manuscript focuses on a number of insects for which genetic and molecular data regarding sex determination mechanisms are available. The sex determination genetic cascade of Drosophila melanogaster is first discussed, followed by an analysis of the sex determination genes of other dipteran and nondipteran insects. Representative examples of sex determination mechanisms that differ in their primary signal are also described. Finally, some evolutionary aspects of these mechanisms are discussed.

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Section: Sex Determination Mechanisms Based On X Chromosome Eliminatimentioning

confidence: 99%

Section: Sex Determination Mechanisms Based On X Chromosome Eliminatimentioning

confidence: 99%

Sex-determining mechanisms in insects

2008

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“…This change in sex ratio is not caused by a higher mortality among males, but by a transformation of males into females; this fact results in an increase in the number of embryos that eliminate 1 instead of the 2 paternally derived X chromosomes [Nigro et al, 2007]. Temperature-shift experiments have shown that the temperature-sensitive period for the determination of the final sex ratio is from the mid-pupa stage to the emergence of adult females [Nigro et al, 2007], the period during which oogenesis takes place [Berry, 1941]. Hence, S. ocellaris females produce at distinct temperatures different ratios of oocytes predetermined to eliminate either 1 or 2 X chromosomes.…”

Section: Monogenic and Digenic Species In Sciaridsmentioning

confidence: 99%

Sex-Determining Mechanisms in Insects Based on Imprinting and Elimination of Chromosomes

Sánchez¹

2013

Sex Dev

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As a rule, the sex of an individual is fixed at fertilization, and the chromosomal constitution of the zygote is a direct consequence of the chromosomal constitution of the gametes. However, there are cases in which the chromosomal differences determining sex are brought about by elimination or inactivation of chromosomes in the embryo. In Sciaridae insects, all zygotes start with the XXX constitution; the loss of either 1 or 2 X chromosomes determines whether the zygote becomes XX (female) or X0 (male). In Cecydomyiidae and Collembola insects, all zygotes start with the XXXX constitution. If the embryo does not eliminate any X chromosome, this remains XXXX and develops as female, whereas if 2 X chromosomes are eliminated, the embryo becomes XX0 and develops as a male. In the coccids (scale insects), the chromosomal differences between the sexes result from either the elimination or the heterochromatinization (inactivation) of half of the chromosomes giving rise to haploid males and diploid females. The chromosomes that are eliminated or inactivated are those inherited from the father. Therefore, in the formation of the sex-determining chromosomal signal in those insects, a marking (‘imprinting') process must occur in one of the parents, which determines that the chromosomes to be eliminated or inactivated are of paternal origin. In this article, the sex determination mechanism of these insects and the associated imprinting process are reviewed.

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“…This change in sex ratio is not caused by a higher mortality among males, but by a transformation of male into females; i.e., an increase in the number of embryos that eliminate one instead of two paternal-derived X chromosomes (Nigro et al 2007). Temperature-shift experiments have shown that the temperature-sensitive period for the determination of the final sex ratio is from the mid-pupa stage to the emergence of adult females (Nigro et al 2007), the period during which oogenesis takes place (Berry 1941). Hence, the S. ocellaris females produce at distinct temperatures different ratios of oocytes that either contain or do not contain the maternal factor for X chromosome elimination.…”

Section: The Digenic Species Sciara Ocellarismentioning

confidence: 99%

Sciara as an experimental model for studies on the evolutionary relationships between the zygotic, maternal and environmental primary signals for sexual development

Sánchez

2010

J Genet

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Sex determination refers to the developmental programme that commits the embryo to either the male or the female pathway. There are a plethora of mechanisms via which gender is decided. These mechanisms can be classified into three main categories depending on the origin of the primary, genetic, sex-determination signal, which can be zygotic, maternal or environmental. In the dipteran Sciara, the zygotic signal is a consequence of the maternal signal, and this in turn can be a consequence of the environmental signal. This makes Sciara a unique experimental model for studying the evolutionary relationships between the three primary signals triggering sexual development. [Sánchez L. 2010 Sciara as an experimental model for studies on the evolutionary relationships between the zygotic, maternal and environmental primary signals for sexual development. J. Genet. 89,[325][326][327][328][329][330][331]

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Temperature and the progeny sex-ratio in Sciara ocellaris (Diptera, Sciaridae)

Cited by 34 publications

References 31 publications

Sex-determining mechanisms in insects

Sex-determining mechanisms in insects

Sex-Determining Mechanisms in Insects Based on Imprinting and Elimination of Chromosomes

Sciara as an experimental model for studies on the evolutionary relationships between the zygotic, maternal and environmental primary signals for sexual development

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