Comparative transcriptome analyses reveal core parasitism genes and suggest gene duplication and repurposing as sources of structural novelty

Zhenzhen Yang; Eric K. Wafula; Loren A. Honaas; Huiting Zhang; Malay Das; Monica Fernandez-Aparicio; Kan Huang; Pradeepa C.G. Bandaranayake; Biao Wu; Joshua P. Der; Christopher R. Clarke; Paula E. Ralph; Lena Landherr; Naomi S. Altman; Michael P. Timko; John I. Yoder; James H. Westwood; Claude W. DePamphilis

doi:10.1093/molbev/msu343

Comparative transcriptome analyses reveal core parasitism genes and suggest gene duplication and repurposing as sources of structural novelty

Zhenzhen Yang, Eric K. Wafula, Loren A. Honaas, Huiting Zhang, Malay Das, Monica Fernandez-Aparicio, Kan Huang, Pradeepa C.G. Bandaranayake, Biao Wu, Joshua P. Der, Christopher R. Clarke, Paula E. Ralph, Lena Landherr, Naomi S. Altman, Michael P. Timko, John I. Yoder, James H. Westwood, Claude W. DePamphilis

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120 Scopus citations

Abstract

The origin of novel traits is recognized as an important process underlying many major evolutionary radiations. We studied the genetic basis for the evolution of haustoria, the novel feeding organs of parasitic flowering plants, using comparative transcriptome sequencing in three species of Orobanchaceae. Around 180 genes are upregulated during haustorial development following host attachment in at least two species, and these are enriched in proteases, cell wall modifying enzymes, and extracellular secretion proteins. Additionally, about 100 shared genes are upregulated in response to haustorium inducing factors prior to host attachment. Collectively, we refer to these newly identified genes as putative "parasitism genes." Most of these parasitism genes are derived from gene duplications in a common ancestor of Orobanchaceae and Mimulus guttatus, a related nonparasitic plant. Additionally, the signature of relaxed purifying selection and/or adaptive evolution at specific sites was detected in many haustorial genes, and may play an important role in parasite evolution. Comparative analysis of gene expression patterns in parasitic and nonparasitic angiosperms suggests that parasitism genes are derived primarily from root and floral tissues, but with some genes co-opted from other tissues. Gene duplication, often taking place in a nonparasitic ancestor of Orobanchaceae, followed by regulatory neofunctionalization, was an important process in the origin of parasitic haustoria.

Original language	English (US)
Pages (from-to)	767-790
Number of pages	24
Journal	Molecular biology and evolution
Volume	32
Issue number	3
DOIs	https://doi.org/10.1093/molbev/msu343
State	Published - Mar 1 2015

All Science Journal Classification (ASJC) codes

Ecology, Evolution, Behavior and Systematics
Molecular Biology
Genetics

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Yang, Z., Wafula, E. K., Honaas, L. A., Zhang, H., Das, M., Fernandez-Aparicio, M., Huang, K., Bandaranayake, P. C. G., Wu, B., Der, J. P., Clarke, C. R., Ralph, P. E., Landherr, L., Altman, N. S., Timko, M. P., Yoder, J. I., Westwood, J. H., & DePamphilis, C. W. (2015). Comparative transcriptome analyses reveal core parasitism genes and suggest gene duplication and repurposing as sources of structural novelty. Molecular biology and evolution, 32(3), 767-790. https://doi.org/10.1093/molbev/msu343

@article{1c71f81943e9437ea5243b9c798e2080,

title = "Comparative transcriptome analyses reveal core parasitism genes and suggest gene duplication and repurposing as sources of structural novelty",

abstract = "The origin of novel traits is recognized as an important process underlying many major evolutionary radiations. We studied the genetic basis for the evolution of haustoria, the novel feeding organs of parasitic flowering plants, using comparative transcriptome sequencing in three species of Orobanchaceae. Around 180 genes are upregulated during haustorial development following host attachment in at least two species, and these are enriched in proteases, cell wall modifying enzymes, and extracellular secretion proteins. Additionally, about 100 shared genes are upregulated in response to haustorium inducing factors prior to host attachment. Collectively, we refer to these newly identified genes as putative {"}parasitism genes.{"} Most of these parasitism genes are derived from gene duplications in a common ancestor of Orobanchaceae and Mimulus guttatus, a related nonparasitic plant. Additionally, the signature of relaxed purifying selection and/or adaptive evolution at specific sites was detected in many haustorial genes, and may play an important role in parasite evolution. Comparative analysis of gene expression patterns in parasitic and nonparasitic angiosperms suggests that parasitism genes are derived primarily from root and floral tissues, but with some genes co-opted from other tissues. Gene duplication, often taking place in a nonparasitic ancestor of Orobanchaceae, followed by regulatory neofunctionalization, was an important process in the origin of parasitic haustoria.",

author = "Zhenzhen Yang and Wafula, \{Eric K.\} and Honaas, \{Loren A.\} and Huiting Zhang and Malay Das and Monica Fernandez-Aparicio and Kan Huang and Bandaranayake, \{Pradeepa C.G.\} and Biao Wu and Der, \{Joshua P.\} and Clarke, \{Christopher R.\} and Ralph, \{Paula E.\} and Lena Landherr and Altman, \{Naomi S.\} and Timko, \{Michael P.\} and Yoder, \{John I.\} and Westwood, \{James H.\} and DePamphilis, \{Claude W.\}",

note = "Publisher Copyright: {\textcopyright} The Author 2014. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.",

year = "2015",

month = mar,

day = "1",

doi = "10.1093/molbev/msu343",

language = "English (US)",

volume = "32",

pages = "767--790",

journal = "Molecular biology and evolution",

issn = "0737-4038",

publisher = "Oxford University Press",

number = "3",

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Yang, Z, Wafula, EK, Honaas, LA, Zhang, H, Das, M, Fernandez-Aparicio, M, Huang, K, Bandaranayake, PCG, Wu, B, Der, JP, Clarke, CR, Ralph, PE, Landherr, L, Altman, NS, Timko, MP, Yoder, JI, Westwood, JH & DePamphilis, CW 2015, 'Comparative transcriptome analyses reveal core parasitism genes and suggest gene duplication and repurposing as sources of structural novelty', Molecular biology and evolution, vol. 32, no. 3, pp. 767-790. https://doi.org/10.1093/molbev/msu343

TY - JOUR

T1 - Comparative transcriptome analyses reveal core parasitism genes and suggest gene duplication and repurposing as sources of structural novelty

AU - Yang, Zhenzhen

AU - Wafula, Eric K.

AU - Honaas, Loren A.

AU - Zhang, Huiting

AU - Das, Malay

AU - Fernandez-Aparicio, Monica

AU - Huang, Kan

AU - Bandaranayake, Pradeepa C.G.

AU - Wu, Biao

AU - Der, Joshua P.

AU - Clarke, Christopher R.

AU - Ralph, Paula E.

AU - Landherr, Lena

AU - Altman, Naomi S.

AU - Timko, Michael P.

AU - Yoder, John I.

AU - Westwood, James H.

AU - DePamphilis, Claude W.

PY - 2015/3/1

Y1 - 2015/3/1

N2 - The origin of novel traits is recognized as an important process underlying many major evolutionary radiations. We studied the genetic basis for the evolution of haustoria, the novel feeding organs of parasitic flowering plants, using comparative transcriptome sequencing in three species of Orobanchaceae. Around 180 genes are upregulated during haustorial development following host attachment in at least two species, and these are enriched in proteases, cell wall modifying enzymes, and extracellular secretion proteins. Additionally, about 100 shared genes are upregulated in response to haustorium inducing factors prior to host attachment. Collectively, we refer to these newly identified genes as putative "parasitism genes." Most of these parasitism genes are derived from gene duplications in a common ancestor of Orobanchaceae and Mimulus guttatus, a related nonparasitic plant. Additionally, the signature of relaxed purifying selection and/or adaptive evolution at specific sites was detected in many haustorial genes, and may play an important role in parasite evolution. Comparative analysis of gene expression patterns in parasitic and nonparasitic angiosperms suggests that parasitism genes are derived primarily from root and floral tissues, but with some genes co-opted from other tissues. Gene duplication, often taking place in a nonparasitic ancestor of Orobanchaceae, followed by regulatory neofunctionalization, was an important process in the origin of parasitic haustoria.

AB - The origin of novel traits is recognized as an important process underlying many major evolutionary radiations. We studied the genetic basis for the evolution of haustoria, the novel feeding organs of parasitic flowering plants, using comparative transcriptome sequencing in three species of Orobanchaceae. Around 180 genes are upregulated during haustorial development following host attachment in at least two species, and these are enriched in proteases, cell wall modifying enzymes, and extracellular secretion proteins. Additionally, about 100 shared genes are upregulated in response to haustorium inducing factors prior to host attachment. Collectively, we refer to these newly identified genes as putative "parasitism genes." Most of these parasitism genes are derived from gene duplications in a common ancestor of Orobanchaceae and Mimulus guttatus, a related nonparasitic plant. Additionally, the signature of relaxed purifying selection and/or adaptive evolution at specific sites was detected in many haustorial genes, and may play an important role in parasite evolution. Comparative analysis of gene expression patterns in parasitic and nonparasitic angiosperms suggests that parasitism genes are derived primarily from root and floral tissues, but with some genes co-opted from other tissues. Gene duplication, often taking place in a nonparasitic ancestor of Orobanchaceae, followed by regulatory neofunctionalization, was an important process in the origin of parasitic haustoria.

UR - https://www.scopus.com/pages/publications/84982161457

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U2 - 10.1093/molbev/msu343

DO - 10.1093/molbev/msu343

M3 - Article

C2 - 25534030

AN - SCOPUS:84982161457

SN - 0737-4038

VL - 32

SP - 767

EP - 790

JO - Molecular biology and evolution

JF - Molecular biology and evolution

IS - 3

ER -

Comparative transcriptome analyses reveal core parasitism genes and suggest gene duplication and repurposing as sources of structural novelty

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