The Cavefish Oreonectes jiarongensis can be Induced to Differentiate and Recover under the Light Condition

1. Bierbach D., Penshorn M., Hamfler S., Herbert D., Appel J. and Meyer P., 2013 ‒ Gradient Evolution of Body Colouration in Surface and Cave-Dwelling Poecilia mexicana and the Role of Phenotype-Assortative Female Mate Choice, Biomed Research International, DOI: 10.1155/2013/148348.10.1155/2013/148348379450624175282Search in Google Scholar

2. Borowsky R., 2008 ‒ Breeding Astyanax mexicanus through natural spawning, Cold Spring Harbor Protocol. Cold Spring Harbor Laboratory Press, 3, 11, 1072-1073.10.1101/pdb.prot509121356731Search in Google Scholar

3. Feng Y., Xu H. J. and Liu D., 2014 – Research status of skin colour on fish, Journal of Aquaculture, 35, 2, 49-52.Search in Google Scholar

4. Gross J., Borowsky R. and Tabin C., 2009 ‒ A novel role for Mc1r in the parallel evolution of depigmentation in independent populations of the cavefish Astyanax mexicanus, PLoS Genetic, 5, 1, e1000326.10.1371/journal.pgen.1000326260366619119422Search in Google Scholar

5. Gross J. and Wilkens H., 2013 – Albinism in phylogenetically and geographically distinct populations of Astyanax cavefish arises through the same loss-of-function Oca2 allele, Heredity, 111, 2, 122-130.10.1038/hdy.2013.26371626323572122Search in Google Scholar

6. Jeffery W. R., Ma L., Parkhurst A. and Bilandžija, 2016 – Pigment regression and albinism in Astyanax cavefish, in Biology and evolution of the Mexican Cavefish, 151-169.10.1016/B978-0-12-802148-4.00008-6Search in Google Scholar

7. Junko M. and Tsutomu H., 2009 – Genetic variation and differentiation in the Japanese Fivelined Skink, Eumeces latiscutatus (Reptilia, Squamata), Zoological Science, 20, 91, 97-106.10.2108/zsj.20.9712560607Search in Google Scholar

8. Kindermann C. and Hero J., 2016a ‒ Pigment cell distribution in a rapid colour changing amphibian (Litoria wilcoxii), Zoomorphology, 135, 2, 197-203.10.1007/s00435-016-0303-1Search in Google Scholar

9. Kindermann C. and Hero J., 2016b ‒ Rapid dynamic colour change is an intrasexual signal in a lek breeding frog (Litoria wilcoxii), Behavioral Ecology and Sociobiology, 70, 12, 1-9.10.1007/s00265-016-2220-1Search in Google Scholar

10. Leah T. and Catherine D., 1994 – Regulation of organelle transport: lessons from colour change in fish, BioEssays, 16, 10, 727-733.10.1002/bies.950161007Search in Google Scholar

11. Maan M. and Sefc K., 2013 ‒ Colour variation in cichlid fish: Developmental mechanisms, selective pressures and evolutionary consequences, Seminars in Cell and Developmental Biology, 24, 6-7, 516.10.1016/j.semcdb.2013.05.003377887823665150Search in Google Scholar

12. McCauley D., Hixon E. and Jeffery W., 2004 ‒ Evolution of pigment cell regression in the cavefish Astyanax: a late step in melanogenesis, Evolution and Development, 6, 4, 209-218.10.1111/j.1525-142X.2004.04026.x15230961Search in Google Scholar

13. Nyboer E., Gray S. and Chapman L., 2014 ‒ A colourful youth: ontogenetic colour change is habitat specific in the invasive Nile perch, Hydrobiologia, 738, 1, 221-234.10.1007/s10750-014-1961-ySearch in Google Scholar

14. Salopek T. and Jimbow K., 1996 – Induction of melanogenesis during the various melanoma growth phases and the role of tyrosinase, lysosome-associated membrane proteins, and p90 calnexin in the melanogenesis cascade, Journal of investigative dermatology symposium proceedings, 1, 2, 195-202.Search in Google Scholar

15. Sköld N., Aspengren S. and Wallin M., 2013 ‒ Rapid colour change in fish and amphibians ‒ function, regulation, and emerging applications, Pigment Cell and Melanoma Research, 26, 1, 29.10.1111/pcmr.1204023082932Search in Google Scholar

16. Takeo K., Kazuyuki M., Masazumi S. and Masami H., 2009 ‒ Ultrastructure of the dermal chromatophores in a Lizard (Scincidae: Plestiodon latiscutatus) with conspicuous body and tail coloration, Zoological Science, 23, 9, 793-799.10.2108/zsj.23.79317043401Search in Google Scholar

17. Tripathi N., Hoffmann M. and Dreyer C., 2008 ‒ Natural variation of male ornamental traits of the guppy, Poecilia reticulate, Zebrafish, 5, 4, 265-278.10.1089/zeb.2008.054819133825Search in Google Scholar

18. Ye Y., Cai C. and Zhang B., 2003 ‒ The nutrition and feed formulation of fish, M. Chemical Industry Press, Beijing. (in Chinese)Search in Google Scholar

19. Yu H., Shi C. and Niu M. J., 1987 ‒ The role of Xenopus laevis’s cytoplasm to gene function, Science China, B, 2, 161-167.Search in Google Scholar

20. Yu Y., He Y. and Liu L., 2010 ‒ The research progress of MC1R, China Animal Husbandry and Veterinary Medicine, 37, 6, 232-233. (in Chinese)Search in Google Scholar

21. Zhao Y. and Zhang C., 2006 ‒ Cave fishes: concept, diversity and research progress, Biodiversity Science, 14, 5, 451-460. (in Chinese)10.1360/biodiv.050226Search in Google Scholar

22. Zhang M., Liu Y. and Ran J., 2000 ‒ The characteristics of Karst caves development in Libo, Guizhou, Carsologica Sinica, 19, 1, 13-20. (in Chinese)Search in Google Scholar