Evolutionary aspects of non-cell-autonomous regulation in ancient taxa of vascular plants

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Evolutionary aspects of non-cell-autonomous regulation in ancient taxa of vascular plants. / Evkaikina, E. Voronina; Dobryakova, K.; Romanova, M.; Tyutereva, E.; Votsekhovskaja, O.

ABstract Book PLANT BIOLOGY SCANDINAVIA 2015. 2015.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research

Harvard

Evkaikina, EV, Dobryakova, K, Romanova, M, Tyutereva, E & Votsekhovskaja, O 2015, Evolutionary aspects of non-cell-autonomous regulation in ancient taxa of vascular plants. in ABstract Book PLANT BIOLOGY SCANDINAVIA 2015. <http://spps2015.org/fileadmin/user_upload/files/SPPS_2015/SPPS2015_programme_abstract_book_final.pdf>

APA

Evkaikina, E. V., Dobryakova, K., Romanova, M., Tyutereva, E., & Votsekhovskaja, O. (2015). Evolutionary aspects of non-cell-autonomous regulation in ancient taxa of vascular plants. In ABstract Book PLANT BIOLOGY SCANDINAVIA 2015 http://spps2015.org/fileadmin/user_upload/files/SPPS_2015/SPPS2015_programme_abstract_book_final.pdf

Vancouver

Evkaikina EV, Dobryakova K, Romanova M, Tyutereva E, Votsekhovskaja O. Evolutionary aspects of non-cell-autonomous regulation in ancient taxa of vascular plants. In ABstract Book PLANT BIOLOGY SCANDINAVIA 2015. 2015

Author

Evkaikina, E. Voronina ; Dobryakova, K. ; Romanova, M. ; Tyutereva, E. ; Votsekhovskaja, O. / Evolutionary aspects of non-cell-autonomous regulation in ancient taxa of vascular plants. ABstract Book PLANT BIOLOGY SCANDINAVIA 2015. 2015.

BibTeX

@inproceedings{e4cb18c979a944528f40cf2e8b22b641,

title = "Evolutionary aspects of non-cell-autonomous regulation in ancient taxa of vascular plants",

abstract = "Plasmodesmata mediate the exchange of information in the form of miRNA, proteins and mRNA between adjacent cells in the course of plant development. This fundamental role of plasmodesmata is well established in angiosperms but has not yet been traced back to the evolutionary ancient plant taxa. Comparative studies on representatives of such taxa including gymnosperms, ferns and lycophytes could shed light on the origin and development on non-cell autonomous regulation of gene expression in plants. The KNOX genes, coding for non-cell-autonoumous homeodomain transcription factors that function as regulators of apical meristems, have been characterized in a large number of angiosperms, and also in some representatives of other taxa. Therefore, the KNOX proteins can be used as models for characterization of cell-to-cell transport. To this end, the patterns of localization of KNOX transcripts, KNOX proteins and of plasmodesmata, respectively, need to be compared in the meristems of the representatives of different",

keywords = "Huperzia selago, транскриптом, гомологи KNOX генов",

author = "Evkaikina, {E. Voronina} and K. Dobryakova and M. Romanova and E. Tyutereva and O. Votsekhovskaja",

year = "2015",

language = "English",

booktitle = "ABstract Book PLANT BIOLOGY SCANDINAVIA 2015",

}

RIS

TY - GEN

T1 - Evolutionary aspects of non-cell-autonomous regulation in ancient taxa of vascular plants

AU - Evkaikina, E. Voronina

AU - Dobryakova, K.

AU - Romanova, M.

AU - Tyutereva, E.

AU - Votsekhovskaja, O.

PY - 2015

Y1 - 2015

N2 - Plasmodesmata mediate the exchange of information in the form of miRNA, proteins and mRNA between adjacent cells in the course of plant development. This fundamental role of plasmodesmata is well established in angiosperms but has not yet been traced back to the evolutionary ancient plant taxa. Comparative studies on representatives of such taxa including gymnosperms, ferns and lycophytes could shed light on the origin and development on non-cell autonomous regulation of gene expression in plants. The KNOX genes, coding for non-cell-autonoumous homeodomain transcription factors that function as regulators of apical meristems, have been characterized in a large number of angiosperms, and also in some representatives of other taxa. Therefore, the KNOX proteins can be used as models for characterization of cell-to-cell transport. To this end, the patterns of localization of KNOX transcripts, KNOX proteins and of plasmodesmata, respectively, need to be compared in the meristems of the representatives of different

AB - Plasmodesmata mediate the exchange of information in the form of miRNA, proteins and mRNA between adjacent cells in the course of plant development. This fundamental role of plasmodesmata is well established in angiosperms but has not yet been traced back to the evolutionary ancient plant taxa. Comparative studies on representatives of such taxa including gymnosperms, ferns and lycophytes could shed light on the origin and development on non-cell autonomous regulation of gene expression in plants. The KNOX genes, coding for non-cell-autonoumous homeodomain transcription factors that function as regulators of apical meristems, have been characterized in a large number of angiosperms, and also in some representatives of other taxa. Therefore, the KNOX proteins can be used as models for characterization of cell-to-cell transport. To this end, the patterns of localization of KNOX transcripts, KNOX proteins and of plasmodesmata, respectively, need to be compared in the meristems of the representatives of different

KW - Huperzia selago

KW - транскриптом

KW - гомологи KNOX генов

M3 - Conference contribution

BT - ABstract Book PLANT BIOLOGY SCANDINAVIA 2015

ER -

ID: 4762241