Defense-related genes expressed in Norway spruce roots after infection with the root rot pathogen Ceratobasidium bicorne (anamorph: Rhizoctonia sp.)

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Standard

Defense-related genes expressed in Norway spruce roots after infection with the root rot pathogen Ceratobasidium bicorne (anamorph : Rhizoctonia sp.). / Jøhnk, Nina; Hietala, Ari M.; Fossdal, Carl G.; Collinge, David B.; Newman, Mari Anne.

In: Tree Physiology, Vol. 25, No. 12, 01.01.2005, p. 1533-1543.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Jøhnk, N, Hietala, AM, Fossdal, CG, Collinge, DB & Newman, MA 2005, 'Defense-related genes expressed in Norway spruce roots after infection with the root rot pathogen Ceratobasidium bicorne (anamorph: Rhizoctonia sp.)', Tree Physiology, vol. 25, no. 12, pp. 1533-1543. https://doi.org/10.1093/treephys/25.12.1533

APA

Jøhnk, N., Hietala, A. M., Fossdal, C. G., Collinge, D. B., & Newman, M. A. (2005). Defense-related genes expressed in Norway spruce roots after infection with the root rot pathogen Ceratobasidium bicorne (anamorph: Rhizoctonia sp.). Tree Physiology, 25(12), 1533-1543. https://doi.org/10.1093/treephys/25.12.1533

Vancouver

Jøhnk N, Hietala AM, Fossdal CG, Collinge DB, Newman MA. Defense-related genes expressed in Norway spruce roots after infection with the root rot pathogen Ceratobasidium bicorne (anamorph: Rhizoctonia sp.). Tree Physiology. 2005 Jan 1;25(12):1533-1543. https://doi.org/10.1093/treephys/25.12.1533

Author

Jøhnk, Nina ; Hietala, Ari M. ; Fossdal, Carl G. ; Collinge, David B. ; Newman, Mari Anne. / Defense-related genes expressed in Norway spruce roots after infection with the root rot pathogen Ceratobasidium bicorne (anamorph : Rhizoctonia sp.). In: Tree Physiology. 2005 ; Vol. 25, No. 12. pp. 1533-1543.

Bibtex

@article{0775767d32004a718e099ab129e207df,
title = "Defense-related genes expressed in Norway spruce roots after infection with the root rot pathogen Ceratobasidium bicorne (anamorph: Rhizoctonia sp.)",
abstract = "To study the mechanisms of inducible disease resistance in conifers, changes in transcript accumulation in roots of Norway spruce (Picea abies (L.) Karst.) seedlings exposed to the root rot pathogen Ceratobasidium bicorne Erikss. & Ry v. (anamorph: Rhizoctonia sp.) were monitored by differential display (DD). Because C. bicorne attacks root tips, a desiccation treatment was added to exclude genes induced by pathogen-related desiccation stress. The DD analysis was defined by the use of 11 sets of primers, covering about 5% of the transcriptome. A comparison of gene expression in control, desiccation- and pathogen-stressed roots revealed 36 pathogen-induced gene transcripts. Based on database searches, these transcripts were assigned to four groups originating from spruce mRNA (25 transcripts), rRNA (five transcripts), fungal mRNA (two transcripts) and currently unknown cDNAs (four transcripts). Real-time PCR was applied to verify and quantify pathogen-induced changes in transcript accumulation. Of the 18 transcripts tested, nine were verified to be Norway spruce gene transcripts up-regulated from 1.3- to 66-fold in the infected roots. Four germin-like protein isoforms, a peroxidase and a glutathione S-transferase, all implicated in oxidative processes, including the oxidative burst, were predicted from sequence similarity searches. Seven class IV chitinase isoforms implicated in fungal cell wall degradation and a nucleotide binding site-leucine rich repeat (NBS-LRR) disease resistance protein homologue related to pathogen recognition were identified. Several transcript species, such as the NBS-LRR homologue and the germin-like protein homologues, have not previously been identified as pathogen-inducible genes in gymnosperms.",
keywords = "Chitinase, Differential display (DD), Germin-like protein, GST, NBS-LRR, Peroxidase, Real-time PCR",
author = "Nina J{\o}hnk and Hietala, {Ari M.} and Fossdal, {Carl G.} and Collinge, {David B.} and Newman, {Mari Anne}",
year = "2005",
month = jan,
day = "1",
doi = "10.1093/treephys/25.12.1533",
language = "English",
volume = "25",
pages = "1533--1543",
journal = "Tree Physiology",
issn = "0829-318X",
publisher = "Oxford University Press",
number = "12",

}

RIS

TY - JOUR

T1 - Defense-related genes expressed in Norway spruce roots after infection with the root rot pathogen Ceratobasidium bicorne (anamorph

T2 - Rhizoctonia sp.)

AU - Jøhnk, Nina

AU - Hietala, Ari M.

AU - Fossdal, Carl G.

AU - Collinge, David B.

AU - Newman, Mari Anne

PY - 2005/1/1

Y1 - 2005/1/1

N2 - To study the mechanisms of inducible disease resistance in conifers, changes in transcript accumulation in roots of Norway spruce (Picea abies (L.) Karst.) seedlings exposed to the root rot pathogen Ceratobasidium bicorne Erikss. & Ry v. (anamorph: Rhizoctonia sp.) were monitored by differential display (DD). Because C. bicorne attacks root tips, a desiccation treatment was added to exclude genes induced by pathogen-related desiccation stress. The DD analysis was defined by the use of 11 sets of primers, covering about 5% of the transcriptome. A comparison of gene expression in control, desiccation- and pathogen-stressed roots revealed 36 pathogen-induced gene transcripts. Based on database searches, these transcripts were assigned to four groups originating from spruce mRNA (25 transcripts), rRNA (five transcripts), fungal mRNA (two transcripts) and currently unknown cDNAs (four transcripts). Real-time PCR was applied to verify and quantify pathogen-induced changes in transcript accumulation. Of the 18 transcripts tested, nine were verified to be Norway spruce gene transcripts up-regulated from 1.3- to 66-fold in the infected roots. Four germin-like protein isoforms, a peroxidase and a glutathione S-transferase, all implicated in oxidative processes, including the oxidative burst, were predicted from sequence similarity searches. Seven class IV chitinase isoforms implicated in fungal cell wall degradation and a nucleotide binding site-leucine rich repeat (NBS-LRR) disease resistance protein homologue related to pathogen recognition were identified. Several transcript species, such as the NBS-LRR homologue and the germin-like protein homologues, have not previously been identified as pathogen-inducible genes in gymnosperms.

AB - To study the mechanisms of inducible disease resistance in conifers, changes in transcript accumulation in roots of Norway spruce (Picea abies (L.) Karst.) seedlings exposed to the root rot pathogen Ceratobasidium bicorne Erikss. & Ry v. (anamorph: Rhizoctonia sp.) were monitored by differential display (DD). Because C. bicorne attacks root tips, a desiccation treatment was added to exclude genes induced by pathogen-related desiccation stress. The DD analysis was defined by the use of 11 sets of primers, covering about 5% of the transcriptome. A comparison of gene expression in control, desiccation- and pathogen-stressed roots revealed 36 pathogen-induced gene transcripts. Based on database searches, these transcripts were assigned to four groups originating from spruce mRNA (25 transcripts), rRNA (five transcripts), fungal mRNA (two transcripts) and currently unknown cDNAs (four transcripts). Real-time PCR was applied to verify and quantify pathogen-induced changes in transcript accumulation. Of the 18 transcripts tested, nine were verified to be Norway spruce gene transcripts up-regulated from 1.3- to 66-fold in the infected roots. Four germin-like protein isoforms, a peroxidase and a glutathione S-transferase, all implicated in oxidative processes, including the oxidative burst, were predicted from sequence similarity searches. Seven class IV chitinase isoforms implicated in fungal cell wall degradation and a nucleotide binding site-leucine rich repeat (NBS-LRR) disease resistance protein homologue related to pathogen recognition were identified. Several transcript species, such as the NBS-LRR homologue and the germin-like protein homologues, have not previously been identified as pathogen-inducible genes in gymnosperms.

KW - Chitinase

KW - Differential display (DD)

KW - Germin-like protein

KW - GST

KW - NBS-LRR

KW - Peroxidase

KW - Real-time PCR

UR - http://www.scopus.com/inward/record.url?scp=30444449382&partnerID=8YFLogxK

U2 - 10.1093/treephys/25.12.1533

DO - 10.1093/treephys/25.12.1533

M3 - Journal article

C2 - 16137939

AN - SCOPUS:30444449382

VL - 25

SP - 1533

EP - 1543

JO - Tree Physiology

JF - Tree Physiology

SN - 0829-318X

IS - 12

ER -

ID: 201508313