×

Časopis MODERNÍ VČELAŘ je dostupný ve stáncích a trafikách po celé ČR!

Literatura k článku Mor včelího plodu

Literatura k článku Mor včelího plodu

Seznam literatury k článku Mor včelího plodu, aneb jak bakterie Paenibacillus larvae napadá larvy včely medonosné. Autor Aleš Kvasnička.

 

Literatura

  1. Alippi A. M., Reynaldi F. J., Lopez A. C., De Giusti M. R., Aguilar O. M. (2004): Molecular epidemiology of Paenibacillus larvae larvae and incidence of American foulbrood in argentinean honeys from Buenos Aires province. Journal of Apicultural Research 43, 135–143.
  2. Antunez K., Arredondo D., Anido M., Zunino P. (2011): Metalloprotease production by Paenibacillus larvae during the infection of honeybee larvae. Microbiology-Sgm 157, 1474–1480.
  3. Brandt C. R., Adang M. J., Spence K. D. (1978): Peritrophic membrane - ultrastructural analysis and function as a mechanical barrier to microbial infection in orgyia-pseudotsugata. Journal of Invertebrate Pathology 32, 12–24.
  4. Ebeling J., Knispel H., Hertlein G., Funfhaus A., Genersch E. (2016): Biology of Paenibacillus larvae, a deadly pathogen of honey bee larvae. Applied Microbiology and Biotechnology 100, 7387–7395.
  5. Funfhaus A., Poppinga L., Genersch E. (2013): Identification and characterization of two novel toxins expressed by the lethal honey bee pathogen Paenibacillus larvae, the causative agent of American foulbrood. Environmental Microbiology 15, 2951–2965.
  6. Garcia-Gonzalez E., Poppinga L., Funfhaus A., Hertlein G., Hedtke K., Jakubowska A., Genersch E. (2014): Paenibacillus larvae chitin-degrading protein plcbp49 is a key virulence factor in American foulbrood of honey bees. Plos Pathogens 10, 12.
  7. Genersch E., Ashiralieva A., Fries I. (2005): Strain- and genotype-specific differences in virulence of Paenibacillus larvae subsp larvae, a bacterial pathogen causing American foulbrood disease in honeybees. Applied and Environmental Microbiology 71, 7551–7555.
  8. Giovannoni S. J., Annual R. 2017. Sar11 bacteria: The most abundant plankton in the oceans. Annual review of marine science, vol 9. Palo Alto: Annual Reviews.
  9. Hansen H., Brodsgaard C. J. (1999): American foulbrood: A review of its biology, diagnosis and control. Bee World 80, 5–23.
  10. Hertlein G., Seiffert M., Gensel S., Garcia-Gonzalez E., Ebeling J., Skobalj R., Kuthning A., Sussmuth R. D., Genersch E. (2016): Biological role of Paenilarvins, iturin-like lipopeptide secondary metabolites produced by the honey bee pathogen Paenibacillus larvae. Plos One 11, 14.
  11. Holbourn K. P., Shone C. C., Acharya K. R. (2006): A family of killer toxins - exploring the mechanism of adp-ribosylating toxins. Febs Journal 273, 4579–4593.
  12. Peng C. Y. S., Mussen E., Fong A., Cheng P., Wong G., Montague M. (1996): Laboratory and field studies on the effects of the antibiotic tylosin on honey bee Apis mellifera l (Hymenoptera: Apidae) development and prevention of American foulbrood disease. Journal of Invertebrate Pathology 67, 65–71.
  13. Poppinga L., Janesch B., Funfhaus A., Sekot G., Garcia-Gonzalez E., Hertlein G., Hedtke K., Schaffer C., Genersch E. (2012): Identification and functional analysis of the s-layer protein spla of Paenibacillus larvae, the causative agent of American foulbrood of honey bees. Plos Pathogens 8, 13.
  14. Ueno Y., Yoshida E., Misumi W., Watando E., Suzuki K., Hirai Y., Okura M., Osaki M., Katsuda K., Takamatsu D. (2018): Population structure and antimicrobial susceptibility of Paenibacillus larvae isolates from American foulbrood cases in Apis mellifera in Japan. Environmental Microbiology Reports 10, 210–216.
  15. Yue D., Nordhoff M., Wieler L. H., Genersch E. (2008): Fluorescence in situ hybridization (fish) analysis of the interactions between honeybee larvae and Paenibacillus larvae, the causative agent of American foulbrood of honeybees (Apis mellifera). Environmental Microbiology 10, 1612–1620.

Klíčová slova:
Nemoci včel