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Alternate wiring of a KNOXI genetic network underlies differences in leaf development of A. thaliana and C. hirsuta

Alternate wiring of a KNOXI genetic network underlies differences in leaf development of A. thaliana and C. hirsuta
Alternate wiring of a KNOXI genetic network underlies differences in leaf development of A. thaliana and C. hirsuta
Two interrelated problems in biology are understanding the regulatory logic and predictability of morphological evolution. Here, we studied these problems by comparing Arabidopsis thaliana, which has simple leaves, and its relative, Cardamine hirsuta, which has dissected leaves comprising leaflets. By transferring genes between the two species, we provide evidence for an inverse relationship between the pleiotropy of SHOOTMERISTEMLESS (STM) and BREVIPEDICELLUS (BP) homeobox genes and their ability to modify leaf form. We further show that cis-regulatory divergence of BP results in two alternative configurations of the genetic networks controlling leaf development. In C. hirsuta, ChBP is repressed by the microRNA164A (MIR164A)/ChCUP-SHAPED COTYLEDON (ChCUC) module and ChASYMMETRIC LEAVES1 (ChAS1), thus creating cross-talk between MIR164A/CUC and AS1 that does not occur in A. thaliana. These different genetic architectures lead to divergent interactions of network components and growth regulation in each species. We suggest that certain regulatory genes with low pleiotropy are predisposed to readily integrate into or disengage from conserved genetic networks influencing organ geometry, thus rapidly altering their properties and contributing to morphological divergence.
KNOXI genes, regulatory evolution, cup-shaped cotyledon, cardamine hirsuta, pleiotropy, compound leaf
0890-9369
2391-2404
Rast-Somssich, Madlen I.
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Broholm, Suvi
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Jenkins, Huw
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Canales, Claudia
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Vlad, Daniela
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Kwantes, Michiel
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Bilsborough, Gemma
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Dello Ioio, Raffaele
84199a07-2a85-4f48-8241-745009ebbc8c
Ewing, Rob M.
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Laufs, Patrick
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Huijser, Peter
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Ohno, Carolyn
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Heisler, Marcus G.
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Hay, Angela
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Tsiantis, Miltos
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Rast-Somssich, Madlen I.
f58f5f37-790d-49d9-85fc-a79e5c86c6d0
Broholm, Suvi
ee5a49b1-c2fb-48ae-9a29-ceee847684aa
Jenkins, Huw
12ddd396-4772-4f64-b0da-ffdb747c3356
Canales, Claudia
39899f93-2a1e-4bc3-a365-aed4afb487de
Vlad, Daniela
dad3a29c-d1c7-43b5-9096-334d6087eb21
Kwantes, Michiel
de41f262-e86b-4eb6-89a5-27338bbf2d83
Bilsborough, Gemma
5bdb3fb4-5165-464d-9678-e9e572426222
Dello Ioio, Raffaele
84199a07-2a85-4f48-8241-745009ebbc8c
Ewing, Rob M.
022c5b04-da20-4e55-8088-44d0dc9935ae
Laufs, Patrick
a68a8c35-4db7-4ada-935d-1df7fbe90e17
Huijser, Peter
9b769322-2fc4-49b5-bd95-3ff650d5a2a6
Ohno, Carolyn
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Heisler, Marcus G.
17053456-46ed-49af-8891-0dd99586e314
Hay, Angela
f3f2e00b-6eba-454f-9c4a-160ef90a7839
Tsiantis, Miltos
ad9b15e0-1141-4492-8497-af2eab6053c3

Rast-Somssich, Madlen I., Broholm, Suvi, Jenkins, Huw, Canales, Claudia, Vlad, Daniela, Kwantes, Michiel, Bilsborough, Gemma, Dello Ioio, Raffaele, Ewing, Rob M., Laufs, Patrick, Huijser, Peter, Ohno, Carolyn, Heisler, Marcus G., Hay, Angela and Tsiantis, Miltos (2015) Alternate wiring of a KNOXI genetic network underlies differences in leaf development of A. thaliana and C. hirsuta. Genes & Development, 29 (22), 2391-2404. (doi:10.1101/gad.269050.115). (PMID:26588991)

Record type: Article

Abstract

Two interrelated problems in biology are understanding the regulatory logic and predictability of morphological evolution. Here, we studied these problems by comparing Arabidopsis thaliana, which has simple leaves, and its relative, Cardamine hirsuta, which has dissected leaves comprising leaflets. By transferring genes between the two species, we provide evidence for an inverse relationship between the pleiotropy of SHOOTMERISTEMLESS (STM) and BREVIPEDICELLUS (BP) homeobox genes and their ability to modify leaf form. We further show that cis-regulatory divergence of BP results in two alternative configurations of the genetic networks controlling leaf development. In C. hirsuta, ChBP is repressed by the microRNA164A (MIR164A)/ChCUP-SHAPED COTYLEDON (ChCUC) module and ChASYMMETRIC LEAVES1 (ChAS1), thus creating cross-talk between MIR164A/CUC and AS1 that does not occur in A. thaliana. These different genetic architectures lead to divergent interactions of network components and growth regulation in each species. We suggest that certain regulatory genes with low pleiotropy are predisposed to readily integrate into or disengage from conserved genetic networks influencing organ geometry, thus rapidly altering their properties and contributing to morphological divergence.

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Accepted/In Press date: 15 October 2015
e-pub ahead of print date: 15 November 2015
Published date: 15 November 2015
Keywords: KNOXI genes, regulatory evolution, cup-shaped cotyledon, cardamine hirsuta, pleiotropy, compound leaf
Organisations: Molecular and Cellular

Identifiers

Local EPrints ID: 384867
URI: http://eprints.soton.ac.uk/id/eprint/384867
ISSN: 0890-9369
PURE UUID: b07df928-4cf9-46fe-be3c-5f6cb54f64bc
ORCID for Rob M. Ewing: ORCID iD orcid.org/0000-0001-6510-4001

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Date deposited: 13 Jan 2016 14:19
Last modified: 15 Mar 2024 03:44

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Contributors

Author: Madlen I. Rast-Somssich
Author: Suvi Broholm
Author: Huw Jenkins
Author: Claudia Canales
Author: Daniela Vlad
Author: Michiel Kwantes
Author: Gemma Bilsborough
Author: Raffaele Dello Ioio
Author: Rob M. Ewing ORCID iD
Author: Patrick Laufs
Author: Peter Huijser
Author: Carolyn Ohno
Author: Marcus G. Heisler
Author: Angela Hay
Author: Miltos Tsiantis

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