Modeling the endocrine control of vitellogenin production in female rainbow trout.

The rainbow trout endocrine system is sensitive to changes in annual day length, which is likely the principal environmental cue controlling its reproductive cycle. This study focuses on the endocrine regulation of vitellogenin (Vg) protein synthesis, which is the major egg yolk precursor in this fish species. We present a model of Vg production in female rainbow trout which incorporates a biological pathway beginning with sex steroid estradiol-17β levels in the plasma and concluding with Vg secretion by the liver and sequestration in the oocytes.

Non-sex specific genes associated with the secondary mitotic period of primordial germ cell proliferation in the gonads of embryonic rainbow trout (Oncorhynchus mykiss).

The purposes of this study were to quantify the secondary proliferation of primordial germ cells (PGCs) in both sexes of rainbow trout, determine if a sex difference in the timing of PGC proliferation and eventual pre-meiotic number exists, and use microarray data collected during this period to identify genes that are associated with PGC mitosis. The experiments used vasa-green fluorescent protein (vasa-GFP) transgenic rainbow trout of known genetic sex that allowed for the identification and collection of PGCs in vivo. An increase was observed in the number of PGCs counted in the gonads of both female and male embryonic vasa-GFP rainbow trout, from 300 to 700° days (water temperature in °C × days post-fertilization).

Relationships between the transcriptome and physiological indicators of reproduction in female rainbow trout over an annual cycle.

Normal transcriptomic patterns along the brain-pituitary-gonad-liver (BPGL) axis should be better characterized if endocrine-disrupting compound-induced changes in gene expression are to be understood. Female rainbow trout were studied over a complete year-long reproductive cycle. Tissue samples from pituitary, ovary, and liver were collected for microarray analysis using the 16K Genomic Research on Atlantic Salmon Project (GRASP) microarray and for quantitative polymerase chain reaction measures of estrogen receptor (ER) isoform messenger RNA (mRNA) levels.

The complete nuclear estrogen receptor family in the rainbow trout: discovery of the novel ERalpha2 and both ERbeta isoforms.

Estrogen hormones interact with cellular ERs to exert their biological effects in vertebrate animals. Similar to other animals, fishes have two distinct ER subtypes, ERalpha (NR3A1) and ERbeta (NR3A2). The ERbeta subtype is found as two different isoforms in several fish species because of a gene duplication event.

Determination of genetic sex in chinook salmon (Oncorhynchus tshawytscha) using the male-linked growth hormone pseudogene by real-time PCR.

This study used a real-time quantitative polymerase chain reaction (qPCR) method based on the growth hormone pseudogene (GHp) in chinook salmon (Oncorhynchus tshawytscha) to determine genetic sex. The GHp is present as a single copy in the genome of the male chinook salmon but is absent in the female, providing a means of using this real-time qPCR method to discriminate genetic sex. Comparisons between genomic DNA samples from 2 geographically distinct populations of chinook salmon (Columbia River, Washington, and Yukon River, Alaska) showed, within each population examined, that the males were clearly differentiated from the females.