Cryptochrome a possible link between time and space orientation in insects.

VÁLKOVÁ, Tereza, Markéta KVÍČALOVÁ, Přemysl BARTOŠ, Martin VÁCHA, Olina BAZALOVA, Hana SEHADOVA, Rudolf LOESEL, Ivo SAUMAN and David DOLEZEL. Cryptochrome a possible link between time and space orientation in insects. In International Conference on Invertebrate Reproduction and Development in the Age of Genetic Modifications. Prague. 2010.

Basic information

Original name

Cryptochrome a possible link between time and space orientation in insects.

Name in Czech

Kryptochrom je možný spojovací člíbek mezi orientaci v čase a prostoru u hmyzu.

Authors

VÁLKOVÁ, Tereza (203 Czech Republic, belonging to the institution), Markéta KVÍČALOVÁ (203 Czech Republic, belonging to the institution), Přemysl BARTOŠ (203 Czech Republic, belonging to the institution), Martin VÁCHA (203 Czech Republic, guarantor, belonging to the institution), Olina BAZALOVA (203 Czech Republic), Hana SEHADOVA (203 Czech Republic), Rudolf LOESEL (276 Germany), Ivo SAUMAN (203 Czech Republic) and David DOLEZEL (203 Czech Republic)

Edition

International Conference on Invertebrate Reproduction and Development in the Age of Genetic Modifications. Prague. 2010

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Other information

Language

English

Type of outcome

Konferenční abstrakt

Field of Study

30105 Physiology

Country of publisher

Czech Republic

Confidentiality degree

není předmětem státního či obchodního tajemství

RIV identification code

RIV/00216224:14310/10:00044721

Organization unit

Faculty of Science

Keywords (in Czech)

cryptochrome RNAi magnetoreception insects circadian

Keywords in English

cryptochrome RNAi magnetoreception insects circadian

Tags

International impact, Reviewed

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Abstract

V originále

Precise timing of life processes under rhythmical daily and annual changes of environmental conditions is of vital importance in the life of insects. Photosensitive molecule of Cryptochrome (Cry) was proved to be an important part of feedback loops generating (Cry2) or entraining (Cry1) circadian oscillations in a number of insect species. However, Cryptochrome is likely to be involved even in a different task in the insect life. It may help the animals to perceive the position of geomagnetic North and use this information for their orientation in space. Among others evidences, Cry deficient Drosophila lost its ability to recognize the presence of magnetic field. The aim of the present work was to analyze the impact of Cry gene silencing on magnetoreception of American cockroach Periplaneta americana. We found only Cry 1 for Periplaneta and prepared corresponding ds RNA. The disruption of circadian rhythm after the application of Cry ds RNA verified the Cry1 involvement in controlling of daily activity in Periplaneta (i) and proved the effect of RNA interference to be functional and stable (ii). Following experiments showed that also magnetosensitive reaction vanished when animals with inhibited Cry1 expression were investigated. However, the disruption of rhythms itself (elicited in control group by constant light regime) did not affect the magnetosensitive behavior. The preliminary results are in line with the hypothesis of a key role of Cry in light-dependent magnetoreception of insects. Novel evidence supporting the idea that unique molecules of Cryptochromes are involved in both the time and the compass orientation in insects was reached.

In Czech

Precise timing of life processes under rhythmical daily and annual changes of environmental conditions is of vital importance in the life of insects. Photosensitive molecule of Cryptochrome (Cry) was proved to be an important part of feedback loops generating (Cry2) or entraining (Cry1) circadian oscillations in a number of insect species. However, Cryptochrome is likely to be involved even in a different task in the insect life. It may help the animals to perceive the position of geomagnetic North and use this information for their orientation in space. Among others evidences, Cry deficient Drosophila lost its ability to recognize the presence of magnetic field. The aim of the present work was to analyze the impact of Cry gene silencing on magnetoreception of American cockroach Periplaneta americana. We found only Cry 1 for Periplaneta and prepared corresponding ds RNA. The disruption of circadian rhythm after the application of Cry ds RNA verified the Cry1 involvement in controlling of daily activity in Periplaneta (i) and proved the effect of RNA interference to be functional and stable (ii). Following experiments showed that also magnetosensitive reaction vanished when animals with inhibited Cry1 expression were investigated. However, the disruption of rhythms itself (elicited in control group by constant light regime) did not affect the magnetosensitive behavior. The preliminary results are in line with the hypothesis of a key role of Cry in light-dependent magnetoreception of insects. Novel evidence supporting the idea that unique molecules of Cryptochromes are involved in both the time and the compass orientation in insects was reached.

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Links

GC206/07/J041, research and development project	Name: Neurální podstata magnetorecepce hmyzu. Investor: Czech Science Foundation, Towards the neuronal basis of insect magnetoreception
MSM0021622416, plan (intention)	Name: Diverzita biotických společenstev a populací: kauzální analýza variability v prostoru a čase Investor: Ministry of Education, Youth and Sports of the CR, Diversity of Biotic Communities and Populations: Causal Analysis of variation in space and time