Литература (продолжение)


Hashimoto T., Yuan C.Wu, Blumenthal H.J. Isolation and characterization of the rodlet layer of the microconidial wall of Tricho phyton mentagrophytes: Abstrs Annu. Meet. Amer. Soc. Microbiol., Atlantic City (N.Y.), 1976. Wash., 1976, p. 136.

Haupt I. Separation of the site of synthesis and accumulation of 3,4-dihydroxypfse- nylalanine in Euphorbia lathyris L. — In: Secondary metabolism and coevolution: Symp. Dtsch, Akad. Naturforsch. Leopoldina in Halle, 1974/Ed. M. Luckner et al, S.I.: Dtsch. Akad. Naturforsch. Leopoldina, 1976, p, 129-132.

Haworth R.D. The chemical nature of humic acid. — Soil Sci., 1971, vol. 111, N1 p. 71-79.

Heale ].R. Heterokaryon synthesis and morphogenesis in Verticillium. — J. Gen. Microbiol., 1966, vol. 45, N 3, p. 419-427.

Heaty M.E., Dillavou C.L., Taylor G.E. Diagnostic medium containing inositol, urea, and caffeic acid for selective growth of Gryptococcus neoformans, — J. Clin. Microbiol., 1977, vol. 6, N 4, p. 387 -391.

Hermanides-Nijhof E.J. Aureobasidium and allied genera. — Stud. Mycol., 1977, N 15, p. 141-177.
Herzfeld F., Esser K. Die Phenotoxydasen des Ascorayceten Podospora anserina, IV. Reiningung und Eigenschaften der

Tyrosinase. — Arch. Mikrobiol., 1969,Bd. 65, H. 2, S. 146-162.

Hignett R.C. The adsorption of silver-labelled fungal pigment by bacterial and apple p.ant ribosomes. — J. Gen. Microbiol., 1973, vol. 79, N 1, p. 95-101.

Hignett R.C., Carder J.H., Smith A.R.W. Origin and characteristics of Venturis inaequalis melanoproteins active in the apple scab disease. — J. Gen, Microbiol., 1977, vol, 102, N 1, p. 207-210.

Hignett R.C., Roberts A.L., Carder J.H. The properties of extracellular enzymes of Venturis inaequalis and their association with loss of virulence of the fungus in culture. — J. Gen. Microbiol., 1979, vol. 110, N 1, p. 67-75.

Hippe H. Microbial decomposition of radioactive humic acids and melanins. — In: Trans. 5th Intern. Symp. Studies about Humus “Humus et Plants V”. Prague, 1971, p. 183-189.

Hoffman P., Esser K. The phenol oxidases of the ascomycete Podospora anserina. XII. Affinity of laccases II and III to substrates with different substitution patterns. — Arch. Microbiol., 1977, vol. 112, N 1, p. 111-114.

Hohl H.R., Strait IV. Ultrastructure of ascus, ascospore and ascocarp in Neurospora Uneolata. — Mycologia, 1975, vol. 67, N 2, p. 342-361.

Hoog de G.S., Hermanides-Nijhof E.J. Survey of the black yeasts and related fungi. — Stud. Mycol., 1977, N 15, p. 178-221.

Hopfer R.L., Blank F. Caffeic acid-containing medium for identification of Cryptococcus neoformans. — J. Clin. Microbiol., 1975, vol. 2, N 2, p. 115-120.

Hopfer R.L., Groeschel D. Six-hour pigmentation test for the identification of Cryptococcus neoformans. — J. Clin. Microbiol., 1975, vol. 2, N 2, p. 96-98.

Homeck G., Bucker H., Wollenhaupt H. Survival of bacterial spores under some simulated lunar surface conditions. — Life Sci. Space Res., 1971, vol. 9, p. 119-124.

Horowitz N.H.t Fling M., Нот G. Tyrosinase (Neurospora crassa). — In: Methods enzymol., 1970a, voi. 17, p. 615-620.

Horowitz N.H., Feldman H.M., Pall M.L. Derepression of tyrosinase synthesis in Neurospora by cycloheximide, acrinomycin D, and puromycin. — J. Biol. Chem., 1970b, vol. 245, N 11, p. 2784-2788.