eprintid: 10074
rev_number: 16
eprint_status: archive
userid: 1305
dir: disk0/00/01/00/74
datestamp: 2017-06-30 10:03:36
lastmod: 2018-03-06 07:08:49
status_changed: 2017-06-30 10:03:36
type: article
metadata_visibility: show
creators_name: Hradilova, I
creators_name: Trneny, O
creators_name: Valkova, M
creators_name: Cechova, M
creators_name: Janska, A
creators_name: Prokesova, L
creators_name: Khan, A W
creators_name: Krezdorn, N
creators_name: Rotter, B
creators_name: Winter, P
creators_name: Varshney, R K
creators_name: Soukup, A
creators_name: Bednar, P
creators_name: Hanacek, P
creators_name: Smykal, P
icrisatcreators_name: Khan, A W
icrisatcreators_name: Varshney, R K
affiliation: Department of Botany, Palacký University in Olomouc (Olomouc)
affiliation: Department of Plant Biology, Mendel University (BrnoBrno)
affiliation: Agricultural Research, Ltd (Troubsko)
affiliation: Department of Analytical Chemistry, Regional Centre of Advanced Technologies and Materials, Palacký University in Olomouc (Olomouc)
affiliation: Faculty of Science, Palacký University in Olomouc (Olomouc)
affiliation: Department of Experimental Plant Biology, Charles University (Prague)
affiliation: Department of Crop Science, Breeding and Plant Medicine, Mendel University in Brno (Brno)
affiliation: ICRISAT (Patancheru)
affiliation: GenXPro (Frankfurt)
country: Czech Republic
country: India
country: Germany
title: A Combined Comparative Transcriptomic, Metabolomic, and Anatomical Analyses of Two Key Domestication Traits: Pod Dehiscence and Seed Dormancy in Pea (Pisum sp.)
ispublished: pub
subjects: s2.13
subjects: s355
divisions: CRPS3
full_text_status: public
keywords: Domestication, Legumes, Pea (Pisum sativum), Metabolites, Pod dehiscence, Seed dormancy, Seed coat, Transcriptomics, RNA sequencing, Anatomical structure, Metabolic compounds
note: This research was funded byGrant Agency of Czech Republic, 14-
11782S project.OT was supported by partial institutional funding
on long-term conceptual development of Agricultural Research,
Ltd. organization. LP was supported by partial institutional
funding IGA FA MENDELU No. IP 22/2016. AS, AJ, PB, MC,
and MV were supported by project Czech Ministry of Education,
Youth and Sports—Project LO1417 (AS, AJ) and LO1305 (PB,
MC, and MV)
abstract: The origin of the agriculture was one of the turning points in human history, and a central part of this was the evolution of new plant forms, domesticated crops. Seed dispersal and germination are two key traits which have been selected to facilitate cultivation and harvesting of crops. The objective of this study was to analyze anatomical structure of seed coat and pod, identify metabolic compounds associated with water-impermeable seed coat and differentially expressed genes involved in pea seed dormancy and pod dehiscence. Comparative anatomical, metabolomics, and transcriptomic analyses were carried out on wild dormant, dehiscent Pisum elatius (JI64, VIR320) and cultivated, indehiscent Pisum sativum non-dormant (JI92, Cameor) and recombinant inbred lines (RILs). Considerable differences were found in texture of testa surface, length of macrosclereids, and seed coat thickness. Histochemical and biochemical analyses indicated genotype related variation in composition and heterogeneity of seed coat cell walls within macrosclereids. Liquid chromatography–electrospray ionization/mass spectrometry and Laser desorption/ionization–mass spectrometry of separated seed coats revealed significantly higher contents of proanthocyanidins (dimer and trimer of gallocatechin), quercetin, and myricetin rhamnosides and hydroxylated fatty acids in dormant compared to non-dormant genotypes. Bulk Segregant Analysis coupled to high throughput RNA sequencing resulted in identification of 770 and 148 differentially expressed genes between dormant and non-dormant seeds or dehiscent and indehiscent pods, respectively. The expression of 14 selected dormancy-related genes was studied by qRT-PCR. Of these, expression pattern of four genes: porin (MACE-S082), peroxisomal membrane PEX14-like protein (MACE-S108), 4-coumarate CoA ligase (MACE-S131), and UDP-glucosyl transferase (MACE-S139) was in agreement in all four genotypes with Massive analysis of cDNA Ends (MACE) data. In case of pod dehiscence, the analysis of two candidate genes (SHATTERING and SHATTERPROOF) and three out of 20 MACE identified genes (MACE-P004, MACE-P013, MACE-P015) showed down-expression in dorsal and ventral pod suture of indehiscent genotypes. Moreover, MACE-P015, the homolog of peptidoglycan-binding domain or proline-rich extensin-like protein mapped correctly to predicted Dpo1 locus on PsLGIII. This integrated analysis of the seed coat in wild and cultivated pea provides new insight as well as raises new questions associated with domestication and seed dormancy and pod dehiscence.
date: 2017
date_type: published
publication: Frontiers in Plant Science
volume: 8
number: 542
publisher: Frontiers Media
pagerange: 1-25
id_number: 10.3389/fpls.2017.00542
refereed: TRUE
issn: 1664-462X
official_url: http://dx.doi.org/10.3389/fpls.2017.00542
related_url_url: https://scholar.google.co.in/scholar?q=A+Combined+Comparative+Transcriptomic%2C+Metabolomic%2C+and+Anatomical+Analyses+of+Two+Key+Domestication+Traits%3A+Pod+Dehiscence+and+Seed+Dormancy+in+Pea+%28Pisum+sp.%29&btnG=&hl=en&as_sdt=0%2C5
related_url_type: pub
citation:   Hradilova, I and Trneny, O and Valkova, M and Cechova, M and Janska, A and Prokesova, L and Khan, A W and Krezdorn, N and Rotter, B and Winter, P and Varshney, R K and Soukup, A and Bednar, P and Hanacek, P and Smykal, P  (2017) A Combined Comparative Transcriptomic, Metabolomic, and Anatomical Analyses of Two Key Domestication Traits: Pod Dehiscence and Seed Dormancy in Pea (Pisum sp.).  Frontiers in Plant Science, 8 (542).  pp. 1-25.  ISSN 1664-462X     
document_url: http://oar.icrisat.org/10074/1/fpls-08-00542.pdf