Best practices in plant cytometry

j 2021

Best practices in plant cytometry

GALBRAITH, David, Joao LOUREIRO, Ioanna ANTONIADI, Jillian BAINARD, Petr BUREŠ et. al.

Basic information

Original name

Best practices in plant cytometry

Authors

GALBRAITH, David (guarantor), Joao LOUREIRO (620 Portugal), Ioanna ANTONIADI (752 Sweden), Jillian BAINARD (124 Canada), Petr BUREŠ (203 Czech Republic, belonging to the institution), Petr CAPAL (203 Czech Republic), Mariana CASTRO (620 Portugal), Silvia CASTRO (620 Portugal), Martin CERTNER (203 Czech Republic), Dora CERTNEROVA (203 Czech Republic), Zuzana CHUMOVA (203 Czech Republic), Jaroslav DOLEZEL (203 Czech Republic), Debora GIORGI (380 Italy), Brian C. HUSBAND (124 Canada), Filip KOLAR (203 Czech Republic), Petr KOUTECKY (203 Czech Republic), Paul KRON (124 Canada), Ilia J. LEITCH (826 United Kingdom of Great Britain and Northern Ireland), Karin LJUNG (752 Sweden), Sara LOPES (620 Portugal), Magdalena LUCANOVA (203 Czech Republic), Sergio LUCRETTI (380 Italy), Wen MA (840 United States of America), Susanne MELZER (276 Germany), Istvan MOLNAR (203 Czech Republic), Ondrej NOVAK (203 Czech Republic), Nicole POULTON (840 United States of America), Vladimir SKALICKY (203 Czech Republic), Elwira SLIWINSKA (616 Poland), Petr ŠMARDA (203 Czech Republic, belonging to the institution), Tyler W SMITH (124 Canada), Guiling SUN (840 United States of America), Pedro TALHINHAS (620 Portugal), Attila TARNOK (276 Germany), Eva M TEMSCH (40 Austria), Pavel TRAVNICEK (203 Czech Republic) and Tomas URFUS (203 Czech Republic)

Edition

Cytometry Part A, Hoboken, Wiley, 2021, 1552-4922

Other information

Language

English

Type of outcome

Článek v odborném periodiku (nerecenzovaný)

Field of Study

10611 Plant sciences, botany

Country of publisher

United States of America

Confidentiality degree

není předmětem státního či obchodního tajemství

References:

URL

Impact factor

Impact factor: 4.714

RIV identification code

RIV/00216224:14310/21:00118839

Organization unit

Faculty of Science

DOI

http://dx.doi.org/10.1002/cyto.a.24295

UT WoS

000604577600001

Keywords in English

best practices; chromosome analysis; cytometry; nuclear suspensions; plant sciences; protoplasts and organelle analysis; single cell suspensions

Abstract

V originále

Flow cytometry (FCM) and flow cytometric sorting (FCS) systems have developed as experimental tools of remarkable power and are enjoying an ever increasing impact in the general field of biology (1). Application of these tools to plant biology has developed more slowly given that the natural form of plants infrequently resembles that of the single cell suspension, prototypically the hematopoietic system that drove the original development of FCM/FCS. Nevertheless, these systems have had a profound influence at all levels of plant biology, from the study of single cells and subcellular organelles, to the behavior of populations of plants, and ultimately to the performance of ecosystems. It is safe to say their impact has not plateaued, as further applications of this unique technology are increasingly developed by innovative scientists around the world to address questions both in the basic sciences, and to increasingly confront emerging problems in the applied sector. For example, in addressing the challenges of sustainable production of sufficient food resources based on plant breeding involving ploidy based approaches (e.g., induction of polyploidy) (2) for the needs of our future global citizens, FCM, and FCS systems will play central roles in this effort.

Links

GA19-18545S, research and development project

Name: Eko-geografická limitace rostlinných polyploidů: experimentální testování nových hypotéz souvisejících s velikostí buněk

Investor: Czech Science Foundation

Citovat

GALBRAITH, David, Joao LOUREIRO, Ioanna ANTONIADI, Jillian BAINARD, Petr BUREŠ, Petr CAPAL, Mariana CASTRO, Silvia CASTRO, Martin CERTNER, Dora CERTNEROVA, Zuzana CHUMOVA, Jaroslav DOLEZEL, Debora GIORGI, Brian C. HUSBAND, Filip KOLAR, Petr KOUTECKY, Paul KRON, Ilia J. LEITCH, Karin LJUNG, Sara LOPES, Magdalena LUCANOVA, Sergio LUCRETTI, Wen MA, Susanne MELZER, Istvan MOLNAR, Ondrej NOVAK, Nicole POULTON, Vladimir SKALICKY, Elwira SLIWINSKA, Petr ŠMARDA, Tyler W SMITH, Guiling SUN, Pedro TALHINHAS, Attila TARNOK, Eva M TEMSCH, Pavel TRAVNICEK and Tomas URFUS. Best practices in plant cytometry. Cytometry Part A. Hoboken: Wiley, 2021, vol. 99, No 4, p. 311-317. ISSN 1552-4922. Available from: https://dx.doi.org/10.1002/cyto.a.24295.

@article{1731972,
   author = {Galbraith, David and Loureiro, Joao and Antoniadi, Ioanna and Bainard, Jillian and Bureš, Petr and Capal, Petr and Castro, Mariana and Castro, Silvia and Certner, Martin and Certnerova, Dora and Chumova, Zuzana and Dolezel, Jaroslav and Giorgi, Debora and Husband, Brian C. and Kolar, Filip and Koutecky, Petr and Kron, Paul and Leitch, Ilia J. and Ljung, Karin and Lopes, Sara and Lucanova, Magdalena and Lucretti, Sergio and Ma, Wen and Melzer, Susanne and Molnar, Istvan and Novak, Ondrej and Poulton, Nicole and Skalicky, Vladimir and Sliwinska, Elwira and Šmarda, Petr and Smith, Tyler W and Sun, Guiling and Talhinhas, Pedro and Tarnok, Attila and Temsch, Eva M and Travnicek, Pavel and Urfus, Tomas},
   article_location = {Hoboken},
   article_number = {4},
   doi = {http://dx.doi.org/10.1002/cyto.a.24295},
   keywords = {best practices; chromosome analysis; cytometry; nuclear suspensions; plant sciences; protoplasts and organelle analysis; single cell suspensions},
   language = {eng},
   issn = {1552-4922},
   journal = {Cytometry Part A},
   note = {Editorial.},
   title = {Best practices in plant cytometry},
   url = {https://doi.org/10.1002/cyto.a.24295},
   volume = {99},
   year = {2021}
}

TY  - JFULL
ID  - 1731972
AU  - Galbraith, David - Loureiro, Joao - Antoniadi, Ioanna - Bainard, Jillian - Bureš, Petr - Capal, Petr - Castro, Mariana - Castro, Silvia - Certner, Martin - Certnerova, Dora - Chumova, Zuzana - Dolezel, Jaroslav - Giorgi, Debora - Husband, Brian C. - Kolar, Filip - Koutecky, Petr - Kron, Paul - Leitch, Ilia J. - Ljung, Karin - Lopes, Sara - Lucanova, Magdalena - Lucretti, Sergio - Ma, Wen - Melzer, Susanne - Molnar, Istvan - Novak, Ondrej - Poulton, Nicole - Skalicky, Vladimir - Sliwinska, Elwira - Šmarda, Petr - Smith, Tyler W - Sun, Guiling - Talhinhas, Pedro - Tarnok, Attila - Temsch, Eva M - Travnicek, Pavel - Urfus, Tomas
PY  - 2021
TI  - Best practices in plant cytometry
JF  - Cytometry Part A
VL  - 99
IS  - 4
SP  - 311-317
EP  - 311-317
PB  - Wiley
SN  - 15524922
N1  - Editorial.
KW  - best practices
KW  - chromosome analysis
KW  - cytometry
KW  - nuclear suspensions
KW  - plant sciences
KW  - protoplasts and organelle analysis
KW  - single cell suspensions
UR  - https://doi.org/10.1002/cyto.a.24295
L2  - https://doi.org/10.1002/cyto.a.24295
N2  - Flow cytometry (FCM) and flow cytometric sorting (FCS) systems have developed as experimental tools of remarkable power and are enjoying an ever increasing impact in the general field of biology (1). Application of these tools to plant biology has developed more slowly given that the natural form of plants infrequently resembles that of the single cell suspension, prototypically the hematopoietic system that drove the original development of FCM/FCS. Nevertheless, these systems have had a profound influence at all levels of plant biology, from the study of single cells and subcellular organelles, to the behavior of populations of plants, and ultimately to the performance of ecosystems. It is safe to say their impact has not plateaued, as further applications of this unique technology are increasingly developed by innovative scientists around the world to address questions both in the basic sciences, and to increasingly confront emerging problems in the applied sector. For example, in addressing the challenges of sustainable production of sufficient food resources based on plant breeding involving ploidy based approaches (e.g., induction of polyploidy) (2) for the needs of our future global citizens, FCM, and FCS systems will play central roles in this effort.
ER  -

GALBRAITH, David, Joao LOUREIRO, Ioanna ANTONIADI, Jillian BAINARD, Petr BUREŠ, Petr CAPAL, Mariana CASTRO, Silvia CASTRO, Martin CERTNER, Dora CERTNEROVA, Zuzana CHUMOVA, Jaroslav DOLEZEL, Debora GIORGI, Brian C. HUSBAND, Filip KOLAR, Petr KOUTECKY, Paul KRON, Ilia J. LEITCH, Karin LJUNG, Sara LOPES, Magdalena LUCANOVA, Sergio LUCRETTI, Wen MA, Susanne MELZER, Istvan MOLNAR, Ondrej NOVAK, Nicole POULTON, Vladimir SKALICKY, Elwira SLIWINSKA, Petr ŠMARDA, Tyler W SMITH, Guiling SUN, Pedro TALHINHAS, Attila TARNOK, Eva M TEMSCH, Pavel TRAVNICEK and Tomas URFUS. Best practices in plant cytometry. \textit{Cytometry Part A}. Hoboken: Wiley, 2021, vol.~99, No~4, p.~311-317. ISSN~1552-4922. Available from: https://dx.doi.org/10.1002/cyto.a.24295.

Detailed Information on Publication Record