Biology Reference
In-Depth Information
Dasch, G.A., Weiss, E., and Chang, K-P. (1984). Endosymbionts of insects. In
BergeyÔs Manual of Systematic
Bacteriology
(N.R. Krieg, Ed.), pp. 811Ï833. Williams & Wilkins, Baltimore.
De Bary, A. (1879). Die Erscheinung der Symbiose.
Naturforsch. Versammlung Cassel
, LI, Tagebl. p. 121.
Douglas, A.E. (1989). Mycetocyte symbiosis in insects.
Biol. Rev.
64:
409Ï434.
Douglas, A.E. (1993). The nutritional qaulity of phloem sap utilized by natural aphid populations.
Ecol.
Entomol.
18:
31Ï38.
Douglas, A.E. (1998). Nutritional interactions in insect-microbial symbioses: aphids and their symbiotic
bacteria
Buchnera
.
Annu. Rev. Entomol.
43:
17Ï37.
Dybvig, K. (1990). Mycoplasmal genetics.
Annu. Rev. Microbiol.
44:
81Ï104.
Ebbert, M.A. (1993). Endosymbiotic sex ratio distorters in insects and mites. In
Evolution and Diversity of
Sex Ratio in Insects and Mites
(D.L. Wrensch and M.A. Ebbert, Eds.), pp. 150Ï191. Chapman &
Hall, New York.
Fares, M.A., Ruiz-Gonzalez, M.X., Moya, A., Elena, S.F., and Barrio, E. (2002). GroEL buffers against
deleterious mutations.
Nature
417:
398.
Fukatsu, T. and Ishikawa, H. (1992). Soldier and male of a eusocial aphid
Colophina arma
lack endosymbiont:
implication for physiological and evolutionary interaction between host and symbiont.
J. Insect
Physiol.
38:
1033Ï1042.
Fukatsu, T. and Ishikawa, H. (1993). Occurrence of chaperonin 60 and chaperonin 10 in primary and secondary
bacterial symbionts of aphids: Implications for the evolution of an endosymbiotic system in aphids.
J. Mol. Evol.
36:
568Ï577.
Fukatsu, T. and Ishikawa, H. (1996). Phylogenetic position of yeast-like symbiont of
Hamiltonaphis styraci
(Homoptera, Aphididae) based on 18S rDNA sequence.
Insect Biochem. Mol. Biol.
26:
383Ï388.
Fukatsu, T. and Nikoh, N. (1998). Two intracellular symbiotic bacteria from the mulberry psyllid
Anomoneura
mori
(Insecta, Homoptera).
Appl. Environ. Microbiol.
64:
3599Ï3606.
Fukatsu, T., Nikoh, N., Kawai, R., and Koga, R. (2000). The secondary endosymbiotic bacterium of the pea
aphid,
Acyrthosiphon pisum
(Insecta: Homoptera).
Appl. Environ. Microbiol.
66:
2748Ï2758.
Fukatsu, T., Tsuchida, T., Nikoh, N., and Koga, R. (2001).
Spiroplasma
symbiont of the pea aphid,
Acyrtho-
siphon pisum
(Insecta: Homoptera).
Appl. Environ. Microbiol.
67:
1284Ï1291.
Gray, M.W. and Doolittle, W.F. (1982). Has the endosymbiont hypothesis been proven?
Microbiol. Rev.
46:
1Ï42.
Hara, E., Fukatsu, T., Kakeda, K., Kengaku, M., Ohtaka, C., and Ishikawa, H. (1990). The predominant protein
in an aphid endosymbiont is homologous to an
E. coli
heat shock protein.
Symbiosis
8:
271Ï283.
Harada, H. and Ishikawa, H. (1993). Gut microbe of aphid closely related to its intracellular symbiont.
BioSystems
31:
185Ï191.
Harada, H. and Ishikawa, H. (1997). Experimental pathogenicity of
Erwinia aphidicola
to pea aphid,
Acyrtho-
siphon pisum
.
J. Gen. Appl. Microbiol.
43:
363Ï367.
Harada, H., Oyaizu, H., Kosako, Y., and Ishikawa, H. (1997).
Erwinia aphidicola
, a new species isolated from
pea aphid,
Acyrthosiphon pisum
.
J. Gen. Appl. Microbiol.
43:
349Ï354.
Heddi, A., Lefebvre, F., and Nardon, P. (1993). Effect of endocytobiotic bacteria on mitochondrial enzymatic
activities in the weevil
Sitophilus oryzae
(Coleoptera: Cuculionidae).
Insect Biochem. Mol. Biol.
23:
403Ï411.
Heie, O.E. (1987). Paleontology and phylogeny. In
Aphids: Their Biology, Natural Enemies and Control,
Vol.
2A (A.K. Minks and P. Harrewijn, Eds.), pp. 367Ï391. Elsevier, Amsterdam.
Hinde, R. (1971). The Ýne structure of the mycetome symbiotes of the aphids
Brevicoryne brassicae
,
Myzus
persicae
, and
Macrosiphum rosae
.
J. Insect Physiol.
17:
2035Ï2050.
Hoffmann, A.A. and Turelli, M. (1997). Cytoplasmic incompatibility in insects. In
InÞuential Passengers:
Inherited Microorganisms and Arthropod Reproduction
(S.L. OÔNeill, A.A. Hoffmann, and J.H.
Werren, Eds.), pp. 42Ï80. Oxford University Press, Oxford, U.K.
Hoffmann, A.A., Turelli, M., and Simmons, G.M. (1986). Unidirectional incompatibility between populations
of
Drosophila simulans
.
Evolution
40:
692Ï701.
Hongoh, Y. and Ishikawa, H. (1997). Uric acid as a nitrogen resource for the brown planthopper,
Nilaparvata
lugens
: studies with synthetic diets and aposymbiotic insects.
Zool. Sci.
14:
581Ï586.
Hongoh, Y. and Ishikawa, H. (2000). Evolutionary studies on uricases of fungal endosymbionts of aphids and
planthoppers.
J. Mol. Evol.
51:
265Ï277.