@ARTICLE{TreeBASE2Ref27355,
author = {Vadim Y Kryukov and Oksana G Tomilova and Olga N Yaroslavtseva and Ting-Chi Wen and Natalia A Kryukova and Olga V Polenogova and Yuri Tokarev and Viktor V Glupov},
title = {Temperature preferences of Cordyceps militaris and its ability to kill insects under different thermo-physiological states},
year = {2017},
keywords = { Cordyceps; ecological preferences; virulence; temperature},
doi = {},
url = {http://},
pmid = {},
journal = {Mycoscience},
volume = {},
number = {},
pages = {},
abstract = {Genetic relationships and temperature preferences were determined for 19 isolates of Cordyceps militaris from the Palearctic temperate zone. Two intraspecific groups were revealed using the elongation factor tef1-alpha gene sequence. The variability of surface mycelial growth of isolates from different regions (Siberia, Far East, European part or Russia) and genetic lineages was extremely low at temperatures of 530 ?C. However, a correlation between latitude of origin and growth under warm conditions (27.5 ?C) was revealed. C. militaris cultures were not heat-active but were more psychrotolerant than Beauveria bassiana and Metarhizium robertsii isolates from the Palearctic temperate zone. Wax moth Galleria mellonella larvae was able to overcome C. militaris infection (injected hyphal bodies) in an active state (25 ?C), but mortality increased 5.5-fold during diapause induced by low temperature (15 ?C). Cold stupor (5 ?C) significantly prolonged the development of mycosis. If it was fought off at 25 ?C, the infection in larvae could be activated in pupae under cold conditions (8 ?C). Topical inoculation of larvae with ascospores was also more efficacious at 15 ?C than at 25 ?C. However, immunosuppression of larvae led to levelling of mortality at these temperatures. The study confirms the stenoecity of C. militaris and demonstrates crucial roles for the thermo-physiological state of insects in pathogenesis.}
}
Citation for Study 21210
Citation title:
"Temperature preferences of Cordyceps militaris and its ability to kill insects under different thermo-physiological states".
Study name:
"Temperature preferences of Cordyceps militaris and its ability to kill insects under different thermo-physiological states".
This study is part of submission 21210
(Status: Published).
Citation
Kryukov V.Y., Tomilova O.G., Yaroslavtseva O.N., Wen T., Kryukova N.A., Polenogova O.V., Tokarev Y., & Glupov V.V. 2017. Temperature preferences of Cordyceps militaris and its ability to kill insects under different thermo-physiological states. Mycoscience, .
Authors
-
Kryukov V.Y.
-
Tomilova O.G.
-
Yaroslavtseva O.N.
-
Wen T.
-
Kryukova N.A.
-
Polenogova O.V.
-
Tokarev Y.
(submitter)
9110981039
-
Glupov V.V.
Abstract
Genetic relationships and temperature preferences were determined for 19 isolates of Cordyceps militaris from the Palearctic temperate zone. Two intraspecific groups were revealed using the elongation factor tef1-alpha gene sequence. The variability of surface mycelial growth of isolates from different regions (Siberia, Far East, European part or Russia) and genetic lineages was extremely low at temperatures of 530 ?C. However, a correlation between latitude of origin and growth under warm conditions (27.5 ?C) was revealed. C. militaris cultures were not heat-active but were more psychrotolerant than Beauveria bassiana and Metarhizium robertsii isolates from the Palearctic temperate zone. Wax moth Galleria mellonella larvae was able to overcome C. militaris infection (injected hyphal bodies) in an active state (25 ?C), but mortality increased 5.5-fold during diapause induced by low temperature (15 ?C). Cold stupor (5 ?C) significantly prolonged the development of mycosis. If it was fought off at 25 ?C, the infection in larvae could be activated in pupae under cold conditions (8 ?C). Topical inoculation of larvae with ascospores was also more efficacious at 15 ?C than at 25 ?C. However, immunosuppression of larvae led to levelling of mortality at these temperatures. The study confirms the stenoecity of C. militaris and demonstrates crucial roles for the thermo-physiological state of insects in pathogenesis.
Keywords
Cordyceps; ecological preferences; virulence; temperature
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S21210
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref27355,
author = {Vadim Y Kryukov and Oksana G Tomilova and Olga N Yaroslavtseva and Ting-Chi Wen and Natalia A Kryukova and Olga V Polenogova and Yuri Tokarev and Viktor V Glupov},
title = {Temperature preferences of Cordyceps militaris and its ability to kill insects under different thermo-physiological states},
year = {2017},
keywords = { Cordyceps; ecological preferences; virulence; temperature},
doi = {},
url = {http://},
pmid = {},
journal = {Mycoscience},
volume = {},
number = {},
pages = {},
abstract = {Genetic relationships and temperature preferences were determined for 19 isolates of Cordyceps militaris from the Palearctic temperate zone. Two intraspecific groups were revealed using the elongation factor tef1-alpha gene sequence. The variability of surface mycelial growth of isolates from different regions (Siberia, Far East, European part or Russia) and genetic lineages was extremely low at temperatures of 530 ?C. However, a correlation between latitude of origin and growth under warm conditions (27.5 ?C) was revealed. C. militaris cultures were not heat-active but were more psychrotolerant than Beauveria bassiana and Metarhizium robertsii isolates from the Palearctic temperate zone. Wax moth Galleria mellonella larvae was able to overcome C. militaris infection (injected hyphal bodies) in an active state (25 ?C), but mortality increased 5.5-fold during diapause induced by low temperature (15 ?C). Cold stupor (5 ?C) significantly prolonged the development of mycosis. If it was fought off at 25 ?C, the infection in larvae could be activated in pupae under cold conditions (8 ?C). Topical inoculation of larvae with ascospores was also more efficacious at 15 ?C than at 25 ?C. However, immunosuppression of larvae led to levelling of mortality at these temperatures. The study confirms the stenoecity of C. militaris and demonstrates crucial roles for the thermo-physiological state of insects in pathogenesis.}
}
- Show RIS reference
TY - JOUR
ID - 27355
AU - Kryukov,Vadim Y
AU - Tomilova,Oksana G
AU - Yaroslavtseva,Olga N
AU - Wen,Ting-Chi
AU - Kryukova,Natalia A
AU - Polenogova,Olga V
AU - Tokarev,Yuri
AU - Glupov,Viktor V
T1 - Temperature preferences of Cordyceps militaris and its ability to kill insects under different thermo-physiological states
PY - 2017
KW - Cordyceps; ecological preferences; virulence; temperature
UR - http://dx.doi.org/
N2 - Genetic relationships and temperature preferences were determined for 19 isolates of Cordyceps militaris from the Palearctic temperate zone. Two intraspecific groups were revealed using the elongation factor tef1-alpha gene sequence. The variability of surface mycelial growth of isolates from different regions (Siberia, Far East, European part or Russia) and genetic lineages was extremely low at temperatures of 530 ?C. However, a correlation between latitude of origin and growth under warm conditions (27.5 ?C) was revealed. C. militaris cultures were not heat-active but were more psychrotolerant than Beauveria bassiana and Metarhizium robertsii isolates from the Palearctic temperate zone. Wax moth Galleria mellonella larvae was able to overcome C. militaris infection (injected hyphal bodies) in an active state (25 ?C), but mortality increased 5.5-fold during diapause induced by low temperature (15 ?C). Cold stupor (5 ?C) significantly prolonged the development of mycosis. If it was fought off at 25 ?C, the infection in larvae could be activated in pupae under cold conditions (8 ?C). Topical inoculation of larvae with ascospores was also more efficacious at 15 ?C than at 25 ?C. However, immunosuppression of larvae led to levelling of mortality at these temperatures. The study confirms the stenoecity of C. militaris and demonstrates crucial roles for the thermo-physiological state of insects in pathogenesis.
L3 -
JF - Mycoscience
VL -
IS -
ER -