Influence of thidiazuron, ethylene, abscisic acid and dark storage on the expression levels of ethylene receptors (ETR) and ACC synthase (ACS) genes in Pelargonium

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Theophilus M. Mutui
  • Heiko Mibus
  • Margrethe Serek

Organisationseinheiten

Externe Organisationen

  • Moi University
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Details

OriginalspracheEnglisch
Seiten (von - bis)87-96
Seitenumfang10
FachzeitschriftPlant growth regulation
Jahrgang53
Ausgabenummer2
PublikationsstatusVeröffentlicht - 15 Aug. 2007

Abstract

Expression of ACC synthase and ethylene receptor (ETR) genes were evaluated in different organs of Pelargonium and in response to treatment of leaves with TDZ, ethylene, ABA or exposure to darkness. To isolate unknown ACS genes, a degenerate primer pair was used to amplify three DNA fragments using genomic DNA from Pelargonium leaves. Sequence analysis of two novel partial putative ACC synthases led to their designation as PzACS3 and PzACS4. Gene-specific primers were constructed and synthesized commercially using already published ACC synthase genes, ethylene receptor genes and the two novel putative ACC synthase genes. Expression studies were done using semi-quantitative RT-PCR. The previously isolated ACC synthase genes (pGAC-1 and GACS2) were expressed in most of tissues examined in cultivar 'Katinka' except in roots and petals, respectively. PzACS3 and PzACS4 genes were expressed and undetectable in roots, respectively whereas ethylene receptor gene (PhETR1) was strongly expressed in roots and buds. PhETR2 was constitutively expressed. Transcripts of pGAC-1, GACS2, PzACS3, PzACS4, PhETR1 and PhETR2 genes were expressed in a treatment-specific fashion and correlated positively with ethylene production after treatments except, 2 μl l-1 ethylene, which had inhibitory effect. Ethylene had no effect on expression of all investigated genes whereas ABA and dark storage increased pGAC-1 and GACS2 transcripts, respectively. TDZ treatment resulted in a higher expression of the negative acting ethylene receptor, PhETR1, thus it could have reduced sensitivity of Pelargonium leaves to ethylene with concomitant beneficial effect of delaying the onset of leaf yellowing.

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Influence of thidiazuron, ethylene, abscisic acid and dark storage on the expression levels of ethylene receptors (ETR) and ACC synthase (ACS) genes in Pelargonium. / Mutui, Theophilus M.; Mibus, Heiko; Serek, Margrethe.
in: Plant growth regulation, Jahrgang 53, Nr. 2, 15.08.2007, S. 87-96.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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@article{bf9620a6be2b4e0d94b50d1d707707c3,
title = "Influence of thidiazuron, ethylene, abscisic acid and dark storage on the expression levels of ethylene receptors (ETR) and ACC synthase (ACS) genes in Pelargonium",
abstract = "Expression of ACC synthase and ethylene receptor (ETR) genes were evaluated in different organs of Pelargonium and in response to treatment of leaves with TDZ, ethylene, ABA or exposure to darkness. To isolate unknown ACS genes, a degenerate primer pair was used to amplify three DNA fragments using genomic DNA from Pelargonium leaves. Sequence analysis of two novel partial putative ACC synthases led to their designation as PzACS3 and PzACS4. Gene-specific primers were constructed and synthesized commercially using already published ACC synthase genes, ethylene receptor genes and the two novel putative ACC synthase genes. Expression studies were done using semi-quantitative RT-PCR. The previously isolated ACC synthase genes (pGAC-1 and GACS2) were expressed in most of tissues examined in cultivar 'Katinka' except in roots and petals, respectively. PzACS3 and PzACS4 genes were expressed and undetectable in roots, respectively whereas ethylene receptor gene (PhETR1) was strongly expressed in roots and buds. PhETR2 was constitutively expressed. Transcripts of pGAC-1, GACS2, PzACS3, PzACS4, PhETR1 and PhETR2 genes were expressed in a treatment-specific fashion and correlated positively with ethylene production after treatments except, 2 μl l-1 ethylene, which had inhibitory effect. Ethylene had no effect on expression of all investigated genes whereas ABA and dark storage increased pGAC-1 and GACS2 transcripts, respectively. TDZ treatment resulted in a higher expression of the negative acting ethylene receptor, PhETR1, thus it could have reduced sensitivity of Pelargonium leaves to ethylene with concomitant beneficial effect of delaying the onset of leaf yellowing.",
keywords = "ACC synthase (ACS), Ethylene receptor (ETR), Gene expression, Pelargonium zonale, Phytohormones",
author = "Mutui, {Theophilus M.} and Heiko Mibus and Margrethe Serek",
note = "Funding Information: Acknowledgements This research was funded by German Academic Exchange Service (DAAD) and this is highly appreciated. We thank Selecta Klemm, Stuttgart, Germany, for generously supplying Pelargonium stock plants.",
year = "2007",
month = aug,
day = "15",
doi = "10.1007/s10725-007-9206-y",
language = "English",
volume = "53",
pages = "87--96",
journal = "Plant growth regulation",
issn = "0167-6903",
publisher = "Springer Netherlands",
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TY - JOUR

T1 - Influence of thidiazuron, ethylene, abscisic acid and dark storage on the expression levels of ethylene receptors (ETR) and ACC synthase (ACS) genes in Pelargonium

AU - Mutui, Theophilus M.

AU - Mibus, Heiko

AU - Serek, Margrethe

N1 - Funding Information: Acknowledgements This research was funded by German Academic Exchange Service (DAAD) and this is highly appreciated. We thank Selecta Klemm, Stuttgart, Germany, for generously supplying Pelargonium stock plants.

PY - 2007/8/15

Y1 - 2007/8/15

N2 - Expression of ACC synthase and ethylene receptor (ETR) genes were evaluated in different organs of Pelargonium and in response to treatment of leaves with TDZ, ethylene, ABA or exposure to darkness. To isolate unknown ACS genes, a degenerate primer pair was used to amplify three DNA fragments using genomic DNA from Pelargonium leaves. Sequence analysis of two novel partial putative ACC synthases led to their designation as PzACS3 and PzACS4. Gene-specific primers were constructed and synthesized commercially using already published ACC synthase genes, ethylene receptor genes and the two novel putative ACC synthase genes. Expression studies were done using semi-quantitative RT-PCR. The previously isolated ACC synthase genes (pGAC-1 and GACS2) were expressed in most of tissues examined in cultivar 'Katinka' except in roots and petals, respectively. PzACS3 and PzACS4 genes were expressed and undetectable in roots, respectively whereas ethylene receptor gene (PhETR1) was strongly expressed in roots and buds. PhETR2 was constitutively expressed. Transcripts of pGAC-1, GACS2, PzACS3, PzACS4, PhETR1 and PhETR2 genes were expressed in a treatment-specific fashion and correlated positively with ethylene production after treatments except, 2 μl l-1 ethylene, which had inhibitory effect. Ethylene had no effect on expression of all investigated genes whereas ABA and dark storage increased pGAC-1 and GACS2 transcripts, respectively. TDZ treatment resulted in a higher expression of the negative acting ethylene receptor, PhETR1, thus it could have reduced sensitivity of Pelargonium leaves to ethylene with concomitant beneficial effect of delaying the onset of leaf yellowing.

AB - Expression of ACC synthase and ethylene receptor (ETR) genes were evaluated in different organs of Pelargonium and in response to treatment of leaves with TDZ, ethylene, ABA or exposure to darkness. To isolate unknown ACS genes, a degenerate primer pair was used to amplify three DNA fragments using genomic DNA from Pelargonium leaves. Sequence analysis of two novel partial putative ACC synthases led to their designation as PzACS3 and PzACS4. Gene-specific primers were constructed and synthesized commercially using already published ACC synthase genes, ethylene receptor genes and the two novel putative ACC synthase genes. Expression studies were done using semi-quantitative RT-PCR. The previously isolated ACC synthase genes (pGAC-1 and GACS2) were expressed in most of tissues examined in cultivar 'Katinka' except in roots and petals, respectively. PzACS3 and PzACS4 genes were expressed and undetectable in roots, respectively whereas ethylene receptor gene (PhETR1) was strongly expressed in roots and buds. PhETR2 was constitutively expressed. Transcripts of pGAC-1, GACS2, PzACS3, PzACS4, PhETR1 and PhETR2 genes were expressed in a treatment-specific fashion and correlated positively with ethylene production after treatments except, 2 μl l-1 ethylene, which had inhibitory effect. Ethylene had no effect on expression of all investigated genes whereas ABA and dark storage increased pGAC-1 and GACS2 transcripts, respectively. TDZ treatment resulted in a higher expression of the negative acting ethylene receptor, PhETR1, thus it could have reduced sensitivity of Pelargonium leaves to ethylene with concomitant beneficial effect of delaying the onset of leaf yellowing.

KW - ACC synthase (ACS)

KW - Ethylene receptor (ETR)

KW - Gene expression

KW - Pelargonium zonale

KW - Phytohormones

UR - http://www.scopus.com/inward/record.url?scp=34848916685&partnerID=8YFLogxK

U2 - 10.1007/s10725-007-9206-y

DO - 10.1007/s10725-007-9206-y

M3 - Article

AN - SCOPUS:34848916685

VL - 53

SP - 87

EP - 96

JO - Plant growth regulation

JF - Plant growth regulation

SN - 0167-6903

IS - 2

ER -