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Aggregation of the Sup35 Proteins from Various Yeast Species. / Maitova, Anastasiia V. ; Grizel, Anastasia V. ; Rubel, Alexandr A. ; Chernoff, Yury O. .

3rd International Conference on Life and Environmental Sciences: Abstract book. 2019. стр. 41.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике материалов конференциинаучнаяРецензирование

Harvard

Maitova, AV, Grizel, AV, Rubel, AA & Chernoff, YO 2019, Aggregation of the Sup35 Proteins from Various Yeast Species. в 3rd International Conference on Life and Environmental Sciences: Abstract book. стр. 41, 3rd International Conference on Life and Environmental Sciences, Каунас, Литва, 2/05/19.

APA

Maitova, A. V., Grizel, A. V., Rubel, A. A., & Chernoff, Y. O. (2019). Aggregation of the Sup35 Proteins from Various Yeast Species. в 3rd International Conference on Life and Environmental Sciences: Abstract book (стр. 41)

Vancouver

Maitova AV, Grizel AV, Rubel AA, Chernoff YO. Aggregation of the Sup35 Proteins from Various Yeast Species. в 3rd International Conference on Life and Environmental Sciences: Abstract book. 2019. стр. 41

Author

Maitova, Anastasiia V. ; Grizel, Anastasia V. ; Rubel, Alexandr A. ; Chernoff, Yury O. . / Aggregation of the Sup35 Proteins from Various Yeast Species. 3rd International Conference on Life and Environmental Sciences: Abstract book. 2019. стр. 41

BibTeX

@inproceedings{ab7bcab252824535ad8fab0bb21fe404,
title = "Aggregation of the Sup35 Proteins from Various Yeast Species",
abstract = "Prions are self-perpetuating aggregated proteins, associated with human and animal diseases, and controlling yeast heritable traits. Cross-species prion transmission is impaired by differences between protein sequences involved in intermolecular interactions. However, this barrier could be overcome, e. g. in case of {\textquoteleft}mad cow{\textquoteright} disease transmission to humans. We are studying cross-species interactions between derivatives of the yeast prion protein Sup35 from different yeast species. Transmission of prion state occurs between the Sup35 proteins of very distant species, Ogateae methanolica and Saccharomyces cerevisiae, with only 40% of amino acid similarity in their prion domains, although it is not detected between Sup35 proteins of more closely related species. This shows that transmission barriers do not always correlate with the sequence identity. We present data on the sequence features and aggregation properties of O. methanolica prion domain that may explain this phenomenon. Comprehensive studies of the parameters of protein aggregates formed by Sup35 prion domains of different origins and structures in the S. cerevisiae cells are also performed.",
keywords = "Prion, interspecies barrier, yeast, Sup35",
author = "Maitova, {Anastasiia V.} and Grizel, {Anastasia V.} and Rubel, {Alexandr A.} and Chernoff, {Yury O.}",
year = "2019",
language = "English",
pages = "41",
booktitle = "3rd International Conference on Life and Environmental Sciences",
note = "null ; Conference date: 02-05-2019 Through 04-05-2019",

}

RIS

TY - GEN

T1 - Aggregation of the Sup35 Proteins from Various Yeast Species

AU - Maitova, Anastasiia V.

AU - Grizel, Anastasia V.

AU - Rubel, Alexandr A.

AU - Chernoff, Yury O.

PY - 2019

Y1 - 2019

N2 - Prions are self-perpetuating aggregated proteins, associated with human and animal diseases, and controlling yeast heritable traits. Cross-species prion transmission is impaired by differences between protein sequences involved in intermolecular interactions. However, this barrier could be overcome, e. g. in case of ‘mad cow’ disease transmission to humans. We are studying cross-species interactions between derivatives of the yeast prion protein Sup35 from different yeast species. Transmission of prion state occurs between the Sup35 proteins of very distant species, Ogateae methanolica and Saccharomyces cerevisiae, with only 40% of amino acid similarity in their prion domains, although it is not detected between Sup35 proteins of more closely related species. This shows that transmission barriers do not always correlate with the sequence identity. We present data on the sequence features and aggregation properties of O. methanolica prion domain that may explain this phenomenon. Comprehensive studies of the parameters of protein aggregates formed by Sup35 prion domains of different origins and structures in the S. cerevisiae cells are also performed.

AB - Prions are self-perpetuating aggregated proteins, associated with human and animal diseases, and controlling yeast heritable traits. Cross-species prion transmission is impaired by differences between protein sequences involved in intermolecular interactions. However, this barrier could be overcome, e. g. in case of ‘mad cow’ disease transmission to humans. We are studying cross-species interactions between derivatives of the yeast prion protein Sup35 from different yeast species. Transmission of prion state occurs between the Sup35 proteins of very distant species, Ogateae methanolica and Saccharomyces cerevisiae, with only 40% of amino acid similarity in their prion domains, although it is not detected between Sup35 proteins of more closely related species. This shows that transmission barriers do not always correlate with the sequence identity. We present data on the sequence features and aggregation properties of O. methanolica prion domain that may explain this phenomenon. Comprehensive studies of the parameters of protein aggregates formed by Sup35 prion domains of different origins and structures in the S. cerevisiae cells are also performed.

KW - Prion

KW - interspecies barrier

KW - yeast

KW - Sup35

UR - http://icsb.vdu.lt/wp-content/uploads/2019/05/ABSTRACT-BOOK-ICSB-2019-ISSN.pdf

M3 - Conference contribution

SP - 41

BT - 3rd International Conference on Life and Environmental Sciences

Y2 - 2 May 2019 through 4 May 2019

ER -

ID: 49591998