Department of Zoology, Mizoram University, Aizawl, Mizoram, 796004, India.
Department of Zoology, University of Lucknow, Lucknow, Uttar Pradesh, 226 007, India.
Photochem Photobiol Sci. 2022 Jun;21(6):1067-1076. doi: 10.1007/s43630-022-00195-2. Epub 2022 Mar 9.
Seasonal breeders predominantly use photoperiod as the predictable environmental cue to time their reproduction. Terai tree frogs are long-day seasonal breeders, but the molecular mechanism is unknown. We tested the role of different photoperiodic conditions on expression levels of candidate genes involved in seasonal reproduction and epigenetic regulation. Four experiments were performed. In experiment 1, frogs were exposed to long (LD: 16L:8D) or short photoperiod (SD: 8L:16D). In experiment 2, animals were procured at four different phases of breeding, i.e., during April (emergence just after hibernation), June (breeding phase), August (post-breeding), and October (just before hibernation). In experiments 3 and 4, frogs were exposed to equinox photoperiod but different (10, 100, or 500 lx) light intensities (exp. 3) or wavelength (red: 640 nm, green: 540 nm, blue: 450 nm or white; exp. 4). After 2 weeks, animals were euthanized, and their brain was harvested. mRNA levels of transcripts involved in photoperiodic transduction (Eya3 and Opn5), reproduction (Tshß, GnRH, Dio2, and Dio3), and epigenetics regulation (Dnmt1, Dnmt3a, Hdac1, Hdac3, and Tet2) were measured. Results show that LD promotes the upregulation of Eya3, Opn5, Tshß, GnRH, and Dio2. Differential expression of Opn5 during LD and SD suggests its involvement in light perception. Dio3 levels were upregulated in SD (exp.1) and during the post-breeding phase (exp. 2). These results employ the limited role of light intensity and spectrum in reproduction. This is the first study showing molecular machinery involved in the amphibian system's seasonal reproduction and epigenetic regulation.
季节性繁殖者主要利用光周期作为预测环境线索来调节繁殖时间。Terai 树蛙是长日照季节性繁殖者,但分子机制尚不清楚。我们测试了不同光周期条件对参与季节性繁殖和表观遗传调控的候选基因表达水平的影响。进行了四项实验。在实验 1 中,青蛙暴露在长光照(LD:16L:8D)或短光照(SD:8L:16D)下。在实验 2 中,动物在繁殖的四个不同阶段采集,即在四月(冬眠后刚出现)、六月(繁殖期)、八月(繁殖后)和十月(冬眠前)。在实验 3 和 4 中,青蛙暴露在春分或秋分的光周期下,但光照强度不同(实验 3:10、100 或 500 lx)或波长不同(红色:640nm,绿色:540nm,蓝色:450nm 或白色;实验 4)。2 周后,处死动物并采集其大脑。测量参与光周期转导(Eya3 和 Opn5)、繁殖(Tshβ、GnRH、Dio2 和 Dio3)和表观遗传调控(Dnmt1、Dnmt3a、Hdac1、Hdac3 和 Tet2)的转录本的 mRNA 水平。结果表明,LD 促进 Eya3、Opn5、Tshβ、GnRH 和 Dio2 的上调。LD 和 SD 下 Opn5 的差异表达表明其参与光感知。SD 中(实验 1)和繁殖后阶段(实验 2)Dio3 水平上调。这些结果表明光照强度和光谱在繁殖中的作用有限。这是第一项研究表明参与两栖动物系统季节性繁殖和表观遗传调控的分子机制。
