Biopolym. Cell. 1996; 12(1):58-63.
Вплив світла на мсланіногенез Cladosporium cladosporioides (Fresen) de Vries
1Фоміна М. О., 1Громозова О. М., 1Підгорський В. С.
  1. Інститут мікробіології і вірусології ім. Д. К. Заболотного НАН України
    вул. Академіка Заболотного, 154, Київ, Україна, 03680

Abstract

Досліджено вплив світла та УФ-опромінення на меланіногенез С. cladosporioides. Показано, що ці фактори не здійснюють вирішального впливу на процеси синтезу меланіпа. Висунуто припущен­ ня про конститутивну природу синтезу пігментау такого представника "чорної раси" грибів, як С. cladosporioides.

References

[1] Lyakh SP. Microbial melaninogenesis and its functions. M.: Nauka, 1981; 274 p.
[2] Lyakh SP, Ruban EL. Microbial melanins. M.: Nauka, 1972;185 p.
[3] Ellis DH, Griffiths DA. Melanin deposition in the hyphae of a species of Phomopsis. Can J Microbiol. 1975;21(4):442–52.
[4] Vasilevskaya AI, Zhdanova NN, Tereshchuk AB, Biryuk LI. Adsorption of copper ions by soil hyphomycetes. Mikrobiol Zh. 1988; 50(2):39-45.
[5] Zhdanova NN, Vasilevska AI. Extreme ecology of fungi in nature and experiment. Kiev: Naukova dumka, 1982. 168 p.
[6] Zhdanova NN, Vasilevska AI, Gavrilyuk VI. et al. Accumulation of radioactive strontium by soil micromycetes in model experiments. Mycology and Phytopathology 1990; 24(2):106-111.
[7] Borisyuk LG, Kharatyan EF, Zhdanova NN. Localization and dynamics of melanine accumulation in cells of Cladosporium cladosporioides (Fresen) Vries. Mikrobiol Zh. 1991; 53(6):10-6.
[8] Fomina MA, Gromozova EN, Blazhchuk IS. Growth peculiarities of Cladosporium cladosporioides (Fresen.) de Vries and melanine synthesis by it in the process of periodic cultivation. Mikrobiol Z. 1995; 57(2):15-20.
[9] Zhdanova NN, Gavriushina AI, Bondar' AI. Lethal action of ultraviolet and gamma irradiation on some species of Dematiaceae. Mikrobiol Zh. 1972;33(2):173-7.
[10] Zhdanova NN, Vasilevska AI. Attitude of of fungi to light and to ultraviolet rays and ionizing radiation. Experimental Methods ecology. Kiev: Naukova dumka, 1982: 376-89.
[11] Zhdanova NN, Melezhik AV, Shkolny AI, Sinyavskaya OI. Production and comparative characteristic of melanin from fungus Cladosporium cladosporioides (Fresen) de Vries. Mikrobiol Zh. 1993; 55(1):79-84.
[12] Zhdanova NN, Melezhik AV, Vasilevska AI. et al. The processes of formation and destruction of photoinduced paramagnetic centers in melanin-containing mushrooms. Izv Akad Nauk SSSR Biol. 1978;(4): 576-81.
[13] Ashmarin IP, Vorob'yev AA. Statistical methods in microbiological studies. L.: Medgiz, 1962. 180 p.
[14] Aslanov ChA, Zhdanova YaYa, Stepanichenko YaYa. et al. Biochemical changes in the adaptation of some deuteromycetes to light and matter effects generators of oxygen radicals. Proc. Dokl. Conf. "Anthropogenic ecology micromycetes.". Kiev, 1990: 3-4.
[15] Chebotarev LYa, Zemlyanukhin AA. Physiological and biochemical aspects of photobiology of fungi. Vopr. biokhimii i fiziologii mikroorganizmov. Saratov: Izd-vo Sarat. un-ta, 1976: 7-4.
[16] Sussman AS, Halvorson NO. Spores: Their dormancy and germination. London: Harper and Row, 1966. 354 p.
[17] Pridham JB, Woedhead S. The biosynthesis of melanin in Altermjria. Phytochemistry. 1977; 16(7):903-6.
[18] Chet I, H?ttermann A. Melanin biosynthesis during differentiation of Physarum polycephalum. Biochim Biophys Acta. 1977;499(1):148-55.
[19] Gromozova EN, Fomina MA, Blazhchuk IS, Podgorsky VS. Physiological peculiarities of the growth of different mycelial structures of Thielavia sp. On the medium with glucose. Mikrobiol Zh. 1989; 51(1):43-6.
[20] Pirt SJ, Rowley BI. Melanin production in Aspergillus nidulans. Biochem J. 1969;114(1):9P-10P.
[21] Rowley BI, Pirt SJ. Melanin production by Aspergillus nidulans in batch and chemostat cultures. J Gen Microbiol. 1972;72(3):553-63.