The Inhibitor of wax 1 locus (Iw1) prevents formation of β- and OH-β-diketones in wheat cuticular waxes and maps to a sub-cM interval on chromosome arm 2BS

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

The Inhibitor of wax 1 locus (Iw1) prevents formation of β- and OH-β-diketones in wheat cuticular waxes and maps to a sub-cM interval on chromosome arm 2BS. / Adamski, Nikolai; Bush, Maxwell; Simmonds, James; Turner, Adrian; Mugford, Sarah; Jones, Alan; Findlay, Kim; Pedentchouk, Nikolai; von Wettstein, Penelope Margaret; Uauy, Cristobal.

In: Plant Journal, Vol. 74, No. 6, 2013, p. 989-1002.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Adamski, N, Bush, M, Simmonds, J, Turner, A, Mugford, S, Jones, A, Findlay, K, Pedentchouk, N, von Wettstein, PM & Uauy, C 2013, 'The Inhibitor of wax 1 locus (Iw1) prevents formation of β- and OH-β-diketones in wheat cuticular waxes and maps to a sub-cM interval on chromosome arm 2BS', Plant Journal, vol. 74, no. 6, pp. 989-1002. https://doi.org/10.1111/tpj.12185

APA

Adamski, N., Bush, M., Simmonds, J., Turner, A., Mugford, S., Jones, A., Findlay, K., Pedentchouk, N., von Wettstein, P. M., & Uauy, C. (2013). The Inhibitor of wax 1 locus (Iw1) prevents formation of β- and OH-β-diketones in wheat cuticular waxes and maps to a sub-cM interval on chromosome arm 2BS. Plant Journal, 74(6), 989-1002. https://doi.org/10.1111/tpj.12185

Vancouver

Adamski N, Bush M, Simmonds J, Turner A, Mugford S, Jones A et al. The Inhibitor of wax 1 locus (Iw1) prevents formation of β- and OH-β-diketones in wheat cuticular waxes and maps to a sub-cM interval on chromosome arm 2BS. Plant Journal. 2013;74(6):989-1002. https://doi.org/10.1111/tpj.12185

Author

Adamski, Nikolai ; Bush, Maxwell ; Simmonds, James ; Turner, Adrian ; Mugford, Sarah ; Jones, Alan ; Findlay, Kim ; Pedentchouk, Nikolai ; von Wettstein, Penelope Margaret ; Uauy, Cristobal. / The Inhibitor of wax 1 locus (Iw1) prevents formation of β- and OH-β-diketones in wheat cuticular waxes and maps to a sub-cM interval on chromosome arm 2BS. In: Plant Journal. 2013 ; Vol. 74, No. 6. pp. 989-1002.

Bibtex

@article{4045c4fde93c478a998b7ffc8ac3a7c1,
title = "The Inhibitor of wax 1 locus (Iw1) prevents formation of β- and OH-β-diketones in wheat cuticular waxes and maps to a sub-cM interval on chromosome arm 2BS",
abstract = "Glaucousness is described as the scattering effect of visible light from wax deposited on the cuticle of plant aerial organs. In wheat, two dominant genes lead to non-glaucous phenotypes: Inhibitor of wax 1 (Iw1) and Iw2. The molecular mechanisms and the exact extent (beyond visual assessment) by which these genes affect the composition and quantity of cuticular wax is unclear. To describe the Iw1 locus we used a genetic approach with detailed biochemical characterization of wax compounds. Using synteny and a large number of F2 gametes, Iw1 was fine-mapped to a sub-cM genetic interval on wheat chromosome arm 2BS, which includes a single collinear gene from the corresponding Brachypodium and rice physical maps. The major components of flag leaf and peduncle cuticular waxes included primary alcohols, β-diketones and n-alkanes. Small amounts of C19-C27 alkyl and methylalkylresorcinols that have not previously been described in wheat waxes were identified. Using six pairs of BC2 F3 near-isogenic lines, we show that Iw1 inhibits the formation of β- and hydroxy-β-diketones in the peduncle and flag leaf blade cuticles. This inhibitory effect is independent of genetic background or tissue, and is accompanied by minor but consistent increases in n-alkanes and C24 primary alcohols. No differences were found in cuticle thickness and carbon isotope discrimination in near-isogenic lines differing at Iw1.",
author = "Nikolai Adamski and Maxwell Bush and James Simmonds and Adrian Turner and Sarah Mugford and Alan Jones and Kim Findlay and Nikolai Pedentchouk and {von Wettstein}, {Penelope Margaret} and Cristobal Uauy",
year = "2013",
doi = "10.1111/tpj.12185",
language = "English",
volume = "74",
pages = "989--1002",
journal = "Plant Journal",
issn = "0960-7412",
publisher = "Wiley-Blackwell",
number = "6",

}

RIS

TY - JOUR

T1 - The Inhibitor of wax 1 locus (Iw1) prevents formation of β- and OH-β-diketones in wheat cuticular waxes and maps to a sub-cM interval on chromosome arm 2BS

AU - Adamski, Nikolai

AU - Bush, Maxwell

AU - Simmonds, James

AU - Turner, Adrian

AU - Mugford, Sarah

AU - Jones, Alan

AU - Findlay, Kim

AU - Pedentchouk, Nikolai

AU - von Wettstein, Penelope Margaret

AU - Uauy, Cristobal

PY - 2013

Y1 - 2013

N2 - Glaucousness is described as the scattering effect of visible light from wax deposited on the cuticle of plant aerial organs. In wheat, two dominant genes lead to non-glaucous phenotypes: Inhibitor of wax 1 (Iw1) and Iw2. The molecular mechanisms and the exact extent (beyond visual assessment) by which these genes affect the composition and quantity of cuticular wax is unclear. To describe the Iw1 locus we used a genetic approach with detailed biochemical characterization of wax compounds. Using synteny and a large number of F2 gametes, Iw1 was fine-mapped to a sub-cM genetic interval on wheat chromosome arm 2BS, which includes a single collinear gene from the corresponding Brachypodium and rice physical maps. The major components of flag leaf and peduncle cuticular waxes included primary alcohols, β-diketones and n-alkanes. Small amounts of C19-C27 alkyl and methylalkylresorcinols that have not previously been described in wheat waxes were identified. Using six pairs of BC2 F3 near-isogenic lines, we show that Iw1 inhibits the formation of β- and hydroxy-β-diketones in the peduncle and flag leaf blade cuticles. This inhibitory effect is independent of genetic background or tissue, and is accompanied by minor but consistent increases in n-alkanes and C24 primary alcohols. No differences were found in cuticle thickness and carbon isotope discrimination in near-isogenic lines differing at Iw1.

AB - Glaucousness is described as the scattering effect of visible light from wax deposited on the cuticle of plant aerial organs. In wheat, two dominant genes lead to non-glaucous phenotypes: Inhibitor of wax 1 (Iw1) and Iw2. The molecular mechanisms and the exact extent (beyond visual assessment) by which these genes affect the composition and quantity of cuticular wax is unclear. To describe the Iw1 locus we used a genetic approach with detailed biochemical characterization of wax compounds. Using synteny and a large number of F2 gametes, Iw1 was fine-mapped to a sub-cM genetic interval on wheat chromosome arm 2BS, which includes a single collinear gene from the corresponding Brachypodium and rice physical maps. The major components of flag leaf and peduncle cuticular waxes included primary alcohols, β-diketones and n-alkanes. Small amounts of C19-C27 alkyl and methylalkylresorcinols that have not previously been described in wheat waxes were identified. Using six pairs of BC2 F3 near-isogenic lines, we show that Iw1 inhibits the formation of β- and hydroxy-β-diketones in the peduncle and flag leaf blade cuticles. This inhibitory effect is independent of genetic background or tissue, and is accompanied by minor but consistent increases in n-alkanes and C24 primary alcohols. No differences were found in cuticle thickness and carbon isotope discrimination in near-isogenic lines differing at Iw1.

U2 - 10.1111/tpj.12185

DO - 10.1111/tpj.12185

M3 - Journal article

C2 - 23551421

VL - 74

SP - 989

EP - 1002

JO - Plant Journal

JF - Plant Journal

SN - 0960-7412

IS - 6

ER -

ID: 47454307