Spatially resolved transcriptome profiling in model plant species

Stefania Giacomello; Fredrik Salmén; Barbara K. Terebieniec; Sanja Vickovic; José Fernandez Navarro; Andrey Alexeyenko; Johan Reimegård; Lauren S. McKee; Chanaka Mannapperuma; Vincent Bulone; Patrik L. Ståhl; Jens F. Sundström; Nathaniel R. Street; Joakim Lundeberg

doi:10.1038/nplants.2017.61

Spatially resolved transcriptome profiling in model plant species

Stefania Giacomello, Fredrik Salmén, Barbara K. Terebieniec, Sanja Vickovic, José Fernandez Navarro, Andrey Alexeyenko, Johan Reimegård, Lauren S. McKee, Chanaka Mannapperuma, Vincent Bulone, Patrik L. Ståhl, Jens F. Sundström, Nathaniel R. Street, Joakim Lundeberg

Research output: Contribution to journal › Article › peer-review

145 Citations (Scopus)

Abstract

Understanding complex biological systems requires functional characterization of specialized tissue domains. However, existing strategies for generating and analysing high-throughput spatial expression profiles were developed for a limited range of organisms, primarily mammals. Here we present the first available approach to generate and study high-resolution, spatially resolved functional profiles in a broad range of model plant systems. Our process includes high-throughput spatial transcriptome profiling followed by spatial gene and pathway analyses. We first demonstrate the feasibility of the technique by generating spatial transcriptome profiles from model angiosperms and gymnosperms microsections. In Arabidopsis thaliana we use the spatial data to identify differences in expression levels of 141 genes and 189 pathways in eight inflorescence tissue domains. Our combined approach of spatial transcriptomics and functional profiling offers a powerful new strategy that can be applied to a broad range of plant species, and is an approach that will be pivotal to answering fundamental questions in developmental and evolutionary biology.

Original language	English
Article number	17061
Number of pages	11
Journal	Nature Plants
Volume	3
DOIs	https://doi.org/10.1038/nplants.2017.61
Publication status	Published - 8 May 2017
Externally published	Yes

Keywords

Bioinformatics
Gene expression profiling
Plant development
RNA sequencing

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abstract = "Understanding complex biological systems requires functional characterization of specialized tissue domains. However, existing strategies for generating and analysing high-throughput spatial expression profiles were developed for a limited range of organisms, primarily mammals. Here we present the first available approach to generate and study high-resolution, spatially resolved functional profiles in a broad range of model plant systems. Our process includes high-throughput spatial transcriptome profiling followed by spatial gene and pathway analyses. We first demonstrate the feasibility of the technique by generating spatial transcriptome profiles from model angiosperms and gymnosperms microsections. In Arabidopsis thaliana we use the spatial data to identify differences in expression levels of 141 genes and 189 pathways in eight inflorescence tissue domains. Our combined approach of spatial transcriptomics and functional profiling offers a powerful new strategy that can be applied to a broad range of plant species, and is an approach that will be pivotal to answering fundamental questions in developmental and evolutionary biology.",

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AU - Giacomello, Stefania

AU - Salmén, Fredrik

AU - Terebieniec, Barbara K.

AU - Vickovic, Sanja

AU - Navarro, José Fernandez

AU - Alexeyenko, Andrey

AU - Reimegård, Johan

AU - McKee, Lauren S.

AU - Mannapperuma, Chanaka

AU - Bulone, Vincent

AU - Ståhl, Patrik L.

AU - Sundström, Jens F.

AU - Street, Nathaniel R.

AU - Lundeberg, Joakim

PY - 2017/5/8

Y1 - 2017/5/8

N2 - Understanding complex biological systems requires functional characterization of specialized tissue domains. However, existing strategies for generating and analysing high-throughput spatial expression profiles were developed for a limited range of organisms, primarily mammals. Here we present the first available approach to generate and study high-resolution, spatially resolved functional profiles in a broad range of model plant systems. Our process includes high-throughput spatial transcriptome profiling followed by spatial gene and pathway analyses. We first demonstrate the feasibility of the technique by generating spatial transcriptome profiles from model angiosperms and gymnosperms microsections. In Arabidopsis thaliana we use the spatial data to identify differences in expression levels of 141 genes and 189 pathways in eight inflorescence tissue domains. Our combined approach of spatial transcriptomics and functional profiling offers a powerful new strategy that can be applied to a broad range of plant species, and is an approach that will be pivotal to answering fundamental questions in developmental and evolutionary biology.

AB - Understanding complex biological systems requires functional characterization of specialized tissue domains. However, existing strategies for generating and analysing high-throughput spatial expression profiles were developed for a limited range of organisms, primarily mammals. Here we present the first available approach to generate and study high-resolution, spatially resolved functional profiles in a broad range of model plant systems. Our process includes high-throughput spatial transcriptome profiling followed by spatial gene and pathway analyses. We first demonstrate the feasibility of the technique by generating spatial transcriptome profiles from model angiosperms and gymnosperms microsections. In Arabidopsis thaliana we use the spatial data to identify differences in expression levels of 141 genes and 189 pathways in eight inflorescence tissue domains. Our combined approach of spatial transcriptomics and functional profiling offers a powerful new strategy that can be applied to a broad range of plant species, and is an approach that will be pivotal to answering fundamental questions in developmental and evolutionary biology.

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KW - RNA sequencing

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JO - Nature Plants

JF - Nature Plants

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Spatially resolved transcriptome profiling in model plant species

Abstract

Keywords

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