• PDF / 1,577,616 Bytes
• 22 Pages / 547.087 x 737.008 pts Page_size
• 79 Downloads / 158 Views

DOWNLOAD

REPORT

(0123456789().,-volV) ( 01234567 89().,-volV)

ORIGINAL PAPER

Improved lint yield under field conditions in cotton overexpressing transcription factors regulating fibre initiation Shiming M. Liu . Jenny C. Koebernick . Sally-Ann Walford . Greg A. Constable . Warwick N. Stiller . Danny J. Llewellyn

Received: 18 June 2020 / Accepted: 7 September 2020 Ó Springer Nature Switzerland AG 2020

Abstract Only a few transcription factors (TFs) regulating which cells of the ovule epidermis differentiate into lint fibres have been identified in cotton (Gossypium hirsutum L.). In this study, the effect on lint yield and fibre quality of over-expressing three TFs in cotton, GhHD-1, GhMYB25 and GhMYB25Like, and their double and triple combinations, were evaluated in field experiments over two seasons. The expression of single or stacked TFs were all driven either by an ovule-specific promoter, FBP 7, or a constitutive promoter, Stunt 7, in a Coker 315 background. TF type, either singly or in combination, was found to be the most significant factor affecting lint yield. Among 64 transgenic lines tested, seven were higher yielding than null segregant lines in one or

Electronic supplementary material The online version of this article (https://doi.org/10.1007/s11248-020-00214-x) contains supplementary material, which is available to authorized users. S. M. Liu (&)  G. A. Constable  W. N. Stiller CSIRO Agriculture and Food, Narrabri, NSW 2390, Australia e-mail: [email protected] J. C. Koebernick Auburn University, 202 Funchess Hall, 350 S. College St, Auburn, Al 36849, USA S.-A. Walford  D. J. Llewellyn CSIRO Agriculture and Food, Canberra, ACT 2601, Australia

both seasons and were all from the sets with single and double over-expressed TF combinations. A reduced yield was associated with the set of triple combinations. The two most stable high yielding lines across the seasons recorded 12–22% higher yields than the nulls, although were not competitive to locally adapted commercial controls. Over-expression of TFs singly or in combination did not significantly alter fibre length and strength, but sometimes increased fibre micronaire. There were positive relationships between lint yield and lint percentage and lint yield and fibre density amongst the transgenic lines. Our preliminary results suggest that manipulating TF expression, either singly or in pairs, can increase the density of fibres initiated on developing seeds and fibre yields under field conditions while maintaining overall fibre quality. Keywords Cotton  Fibre quality  Field trial  Genetic manipulation  Transcription factors  Yield components

Introduction Four species of cotton are grown commercially (Gossypium hirsutum L., G. barbadense L., G. arboreum L. and G. herbaceum L.), but G. hirsutum represents the bulk of world production ([ 96%) and

123

Transgenic Res

is the only species currently grown commercially in Australia. Cotton is unusual among field crops in producing two types of important end-use commodities at harvest, i.e. cellulose enriched

Recommend Documents

Correction to: Improved lint yield under field conditions in cotton over-expressing transcription factors regulating fib

149 90 162KB

Transcription Initiation

156 49 72MB

Improved Quinoa Growth, Physiological Response, and Yield by Hydropriming Under Drought Stress Conditions

160 94 546KB

Pseudomonas fluorescens and Azospirillum brasilense Increase Yield and Fruit Quality of Tomato Under Field Conditions

153 86 637KB

Interplay Between Transcription Factors and MicroRNAs Regulating Epithelial-Mesenchymal Transitions in Colorectal Cancer

137 67 764KB

Soil-pipe-atmosphere interaction under field conditions

194 58 2MB

General Transcription Factors

155 84 2MB

cis Elements and Transcription Factors Regulating Gene Promoters in Response to Environmental Stress

156 78 4MB

Proneural Transcription Factors

191 54 6MB

ETS Transcription Factors

174 100 4MB

Apprehending the potential of BABY BOOM transcription factors to mitigate cotton regeneration and transformation

131 6 1MB

Pedigree selection under field conditions within Acala 1517-08 and its glandless derivatives for development of cotton r

131 28 3MB