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Effects of Red LED Spectra and Different Photoperiods on the Circadian Rhythm of Abalones (Haliotis discus hannai)

  • Jin A Kim (Department of Convergence Study on the Ocean Science and Technology, Korea Maritime and Ocean University) ;
  • Min Ju Kim (Division of Marine BioScience, Korea Maritime and Ocean University) ;
  • Jun-Hwan Kim (Department of Aquatic Life Medicine, Jeju National University) ;
  • Cheol Young Choi (Department of Convergence Study on the Ocean Science and Technology, Korea Maritime and Ocean University)
  • 투고 : 2023.12.27
  • 심사 : 2024.03.12
  • 발행 : 2024.03.30

초록

Light is an external environmental factor that affects the biorhythms of aquatic organisms and is involved in their behavior, reproduction, and various biological responses. The biorhythm (24-h cycle) of organisms is controlled internally by clock genes, such as period (Per), cryptochrome (Cry), and melatonin receptor (MT-R), and is externally controlled by light, food, and temperature. In this study, the experimental organisms were divided into photoperiod and LED groups. The photoperiod group was exposed to two photoperiods (LD, 12 h light: 12 h darkness; DD, constant darkness), and the LED group was exposed to a red LED light (wavelength, 630 nm; 12 h LED light: 12 h darkness). Per and Cry mRNA expression levels increased during the bright phase and decreased during the dark phase. MT-R mRNA expression decreased during the bright period and increased during the dark period. The trend in clock gene expression in the RD group was similar to that in the DD group but not in the LD group. Red LED irradiation induced gene expression similar to the 24 h memorization condition, suggesting that long-wavelength light conditions can change the biorhythm of abalones. This study provides academic information on the biorhythm cycle of abalone (a marine gastropod), which is less well known than that of fish and can aid in predicting the physiological response of abalones to changes in light wavelength.

키워드

과제정보

This research was supported by the National Research Foundation of Korea Grant funded by the Korean Government (2021R1F1A1046310).

참고문헌

  1. Balzer I, Espinola IR, Fuentes-Pardo B (1997) Daily variations of immunoreactive melatonin in the visual system of crayfish. Biol Cell 89:539-543
  2. Besharse JC, Zhuang M, Freeman K, Fogerty J (2004) Regulation of photoreceptor Per1 and Per2 by light, dopamine and a circadian clock. Eur J Neurosci 20:167-174
  3. Botte A, Payton L, Tran D (2023) Artificial light at night at environmental intensities disrupts daily rhythm of the oyster Crassostrea gigas. Mar Pollut Bull 191:114850
  4. Chapman EC, Bonsor BJ, Parsons DR, Rotchell JM (2020) Influence of light and temperature cycles on the expression of circadian clock genes in the mussel Mytilus edulis. Mar Environ Res 159:104960
  5. Choi CY, Kim TH, Oh YH, Min TS, Choi JY, Song JA (2019) Effects of various LED light spectra on circadian rhythm during starvation in the olive flounder (Paralichthys olivaceus). Biol Rhythm Res 50:355-365
  6. Constance CM, Green CB, Tei H, Block GD (2002) Bulla gouldiana period exhibits unique regulation at the mRNA and protein levels. J Biol Rhythm 17:413-427
  7. Fonken LK, Nelson RJ (2014) The effects of light at night on circadian clocks and metabolism. Endocr Rev 35:648-670
  8. Gao X, Lin S, Zhang M, Lyu M, Liu Y, Luo X, You W, Ke C (2022) Review: Use of electrophysiological techniques to study visual functions of aquatic organisms. Front Physiol 13:798382
  9. Gao X, Pang G, Luo X, You W, Ke C (2021) Effects of light cycle on motion behaviour and melatonin secretion in Haliotis discus hannai. Aquaculture 532:735981
  10. Gao X, Zhang M, Zheng J, Li X, Chi L, Song C, Liu Y (2016) Effect of LED light quality on the phototaxis and locomotion behaviour of Haliotis discus hannai. Aquac Res 47:3376-3389
  11. Garcia-Esquivel Z, Montes-Magallon S, Gonzalez-Gomez MA (2007) Effect of temperature and photoperiod on the growth, feed consumption, and biochemical content of juvenile green abalone, Haliotis fulgens, fed on a balanced diet. Aquaculture 262:129-141
  12. Gorrostieta-Hurtado E, Searcy-Bernal R, Anguiano-Beltran C, Garcia-Esquivel Z, Valenzuela-Espinoza E (2009) Effect of darkness on the early postlarval development of Haliotis corrugata abalone fed different diatom densities. Cienc Mar 35:113-122
  13. Huang Z, Aweya JJ, Zhu C, Tran NT, Hong Y, Li S, Yao D, Zhang Y (2020) Modulation of crustacean innate immune response by amino acids and their metabolites: inferences from other species. Front Immunol 11:574721
  14. Iuvone PM, Tosini G, Pozdeyev N, Haque R, Klein DC, Chaurasia SS (2005) Circadian clocks, clock networks, arylalkylamine N-acetyltransferase, and melatonin in the retina. Prog Retin Eye Res 24:433-456
  15. Jang JC, Chung JK, Hur YS, Song JH, Kim JM (2017) Behavioral monitoring system for mud shrimp Upogebia major and the photoresponse to illumination with different wavelength LEDs. Korean J Fish Aquat Sci 50:413-420
  16. Jin Y, Chen R, Sun L, Liu W, Fu Z (2009) Photoperiod and temperature influence endocrine disruptive chemical-mediated effects in male adult zebrafish. Aquat Toxicol 92:38-43
  17. Johnston JD, Tournier BB, Andersson H, Masson-Pevet M, Lincoln GA, Hazlerigg DG (2006) Multiple effects of melatonin on rhythmic clock gene expression in the mammalian pars tuberalis. Endocrinology 147:959-965
  18. Kim M, De La Pena JB, Cheong JH, Kim HJ (2018) Neurobiological functions of the period circadian clock 2 gene, per2. Biomol Ther 26:358-367
  19. Kim NN, Shin HS, Lee J, Choi CY (2012) Diurnal gene expression of Period2, Cryptochrome1, and arylalkylamine N-acetyltransferase-2 in olive flounder, Paralichthys olivaceus. Anim Cells Syst 16:27-33
  20. Kong F, Shang J, Ran Z, Zhang M, Liao K, Xu J, Yan X (2023) Light entrainment and molecular regulation of the circadian clock in razor clam Sinonovacula constricta. Aquaculture 564:739072
  21. Landskron J, Chen KF, Wolf E, Stanewsky R (2009) A role for the PERIOD: PERIOD homodimer in the Drosophila circadian clock. PLoS Biol 7:e1000003
  22. Ma H, Liu S, Wei P, Fei F, Ren J, Dai M, Ma Z, Liu Y (2023) Effects of LED spectrum on circadian rhythmic expression of clock genes and Aanat2 in the brain of juvenile European seabass (Dicentrarchus labrax). Front Mar Sci 9:1005352
  23. Maciel FE, Ramos BP, Geihs MA, Vargas MA, Cruz BP, Meyer-Rochow VB, Vakkuri O, Allodi S, Monserrat JM, Nery LEM (2010) Effects of melatonin in connection with the antioxidant defense system in the gills of the estuarine crab Neohelice granulata. Gen Comp Endocr 165:229-236
  24. Mata-Sotres A, Yufera J, Manuel JM, Martinez-Rodriguez G (2016) Daily rhythms of digestive enzyme activity and gene expression in gilthead seabream (Sparus aurata) during ontogeny. Comp Biochem Physiol Part A 197:43-51
  25. Patke A, Young MW, Axelrod S. (2020) Molecular mechanisms and physiological importance of circadian rhythms. Nat Rev Mol Cell Bio 21:67-84
  26. Perrigault M, Tran D (2017) Identification of the molecular clockwork of the oyster Crassostrea gigas. PLoS One 12: e0169790
  27. Petrovsky, N (2001) Towards a unified model of neuroendocrine-immune interaction. Immunol Cell Biol 79:350-357
  28. Pierce LX, Noche RR, Ponomareva O, Chang C, Liang JO (2008) Novel functions for Period 3 and Exo-rhodopsin in rhythmic transcription and melatonin biosynthesis within the zebrafish pineal organ. Brain Res 1223:11-24
  29. Ripperger JA, Jud C, Albrecht U (2011) The daily rhythm of mice. FEBS Lett 585:1384-1392
  30. Schnytzer Y, Simon-Blecher N, Li J, Waldman Ben-Asher H, Salmon-Divon M, Achituv Y, Hughes ME, Levy O (2018) Tidal and diel orchestration of behaviour and gene expression in an intertidal mollusc. Sci Rep, 8:4917
  31. Terazono H, Mutoh T, Yamaguchi S, Kobayashi M, Akiyama M, Udo R, Ohdo S, Okamura H, Shibata S (2003) Adrenergic regulation of clock gene expression in mouse liver. P Natl A Sci 100:6795-6800
  32. Xiaolong G, Mo Z, Xian L, Ce S, Changbin S, Ying L (2016) Effects of LED light quality on the growth, metabolism, and energy budgets of Haliotis discus discus. Aquaculture 453:31-39
  33. Xiaolong G, Mo Z, Xian L, Fucun W, Changbin S, Ying L (2018) Light cycle effects on Haliotis discus hannai Ino growth, energy budget, and related gene expression. Aquaculture 483:213-222
  34. Zhang C, Zhang Q, Pang Y, Song X, Zhou N, Wang J, He L, Lv J, Song Y, Cheng Y, Yang X (2019) The protective effects of melatonin on oxidative damage and the immune system of the Chinese mitten crab (Eriocheir sinensis) exposed to deltamethrin. Sci Total Environ 653:1426-1434