www.cicr.org.in Issue 2, Volume 5, May 2017 Molecular basis of leaf shape var Leaves are the biological factories in plants a Leaf shape in cotton is known to have influen tolerance, and other production attributes. Th and pruning was suggested to improve the c modification of leaf shape is a practically and productivity. There are four major leaf shape easily distinguishable by simple visual obser D 1 ) which has been mapped to short arm of okra type in morphology, maps to the ortholo L-A 1 in tetraploid and diploid cotton, respecti determined they remain constant through the Using cytogenetic approach and biparental QTL mapping, the L-D 1 locus has been mapped to chromosome 15, 5.4cM from teleomere. Later, orthologous mapping of the L-D 1 locus to the sequenced D genome dono (G. raimondii) chromosome 2 has reduced the putative candidate gene interval to 337 k carrying 34 putative genes. Through shuttle mapping using the orthologous laciniate (L-A 2 ) locus from G. arboreum, it was further reduced to 10 putative genes covering 112 kb. Andres and co-workers at North Carolina State University, USA have carried out a series of experiments to determine the molec locus using an association mapping panel an carrying four putative genes viz., GhLMI1-D1 GhLMI1-D1b code for HD-Zip transcription fa codes for a trihelix transcription factor. Throu found equivalent expression of GhLMI1-D1a super-okra compared to normal and sub-okr revealed DNA polymorphisms within the loci gene expression differences across leaf sha that GhLMI1-D1b is responsible for the leaf s validation wherein specific knocking down of produced normal leaf in an okra variety. Usin Dr. Vasu Kuraparthy have established that th encoding an HD-Zip transcription factor hom Cotton Inn riation in cotton is decoded and shape of the leaf has a paramount importan nce on plant and canopy architecture, lint yield, hough, modification of leaf canopy through man cotton yields but is not feasible on large scale cu d economically viable approach to develop varie es in tetraploid cotton viz., normal, sub-okra, okr rvation. These leaf shapes are governed by a m chromosome 15-D 1 . Another leaf shape laciniat ogous diploid A-genome locus (L-A 1 ) on chromo ively are known to act early in the developmenta e crop life. e or kb r a cular basis of leaf shape in cotton. They underto nd two sets of isogenic lines to further narrow do 1a, GhLMI1-D1b, GhRLK1 and GhHRA1. Both G actors, GhRLK1 codes for a serine/threonine pr ugh, expression analysis (Quantitative RT-PCR a across leaf shapes and differential expression ra) of GhLMI1-D1b. Though, sequencing of GhL i, comprehensive interpretations based major nu apes and association of markers with the phenot shape variation in cotton. The same was later co f GhLMI1-D1b transcript through Virus-Induced ng a diverse array of genomic and molecular too he leaf shape in cotton controlled by L-D 1 loci is mologous to the LATE MERISTEM IDENTITY1 (L novate | Issue 2 | Volume 5 | May 2017 A weekly newsletter from ICAR-CICR nce in crop improvement. fibre quality, stress nual or mechanical topping ultivation. Genetic eties with improved ra, and super-okra which are multi-allelic loci called okra (L- te in diploid cotton is similar osome 2. Both loci, L-D 1 and al stage and once ook fine mapping of L-D 1 own the region to 52 kb GhLMI1-D1a and rotein kinase and GhHRA1 and RNA sequencing), they (up-regulation in okra and LMI1-D1a and GhLMI1-D1b ucleotide polymorphisms, type have strongly indicated onfirmed by functional Gene Silencing has ols, research team lead by s governed by GhLMI1-D1b LMI1) gene of Arabidopsis.
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Issue 2, Volume 5, May 2017
Molecular basis of leaf shape variation in cotton is decoded Leaves are the biological factories in plants and shape of the leaf has a paramount importance in crop improvement. Leaf shape in cotton is known to have influence on plant and canopy architecttolerance, and other production attributes. Though, modification of leaf canopy through manual or mechanical topping and pruning was suggested to improve the cotton yields but is not feasible on large scale cultivatiomodification of leaf shape is a practically and economically viable approach to develop varieties with improved productivity. There are four major leaf shapes in tetraploid cotton viz., easily distinguishable by simple visual observation. These leaf shapes are governed by a multiD1) which has been mapped to short arm of chromosome 15okra type in morphology, maps to the orthologous diploid AL-A1 in tetraploid and diploid cotton, respectively are known to act early in the developmental stage and once determined they remain constant through the crop life. Using cytogenetic approach and biparental QTL mapping, the L-D1 locus has been mapped to chromosome 15, 5.4cM from teleomere. Later, orthologous mapping of the L-D1 locus to the sequenced D genome donor (G. raimondii) chromosome 2 has reduced the putative candidate gene interval to 337 kb carrying 34 putative genes. Through shuttle mapping using the orthologous laciniate (L-A2) locus from G. arboreum, it was further reduced to 10 putative genes covering 112 kb. Andres and co-workers at North Carolina State University, USA have carried out a series of experiments to determine the molecular basis of leaf shape in cotton. They undertook fine mapping of locus using an association mapping panel and two sets of isogenicarrying four putative genes viz., GhLMI1-D1aGhLMI1-D1b code for HD-Zip transcription factors, codes for a trihelix transcription factor. Through, expression analysis (Quantitative RTfound equivalent expression of GhLMI1-D1asuper-okra compared to normal and sub-okra) of revealed DNA polymorphisms within the loci, comprehensive interpretations based major nucleotide polymorphisms, gene expression differences across leaf shapes and athat GhLMI1-D1b is responsible for the leaf shape variation in cotton. The same was later confirmed by functional validation wherein specific knocking down of produced normal leaf in an okra variety. Using a diverse array of genomic and molecular tools, research team lead by Dr. Vasu Kuraparthy have established that the leaf shape in cotton controlled by encoding an HD-Zip transcription factor homologous to the
Cotton Innovate
Molecular basis of leaf shape variation in cotton is decoded
Leaves are the biological factories in plants and shape of the leaf has a paramount importance in crop improvement. Leaf shape in cotton is known to have influence on plant and canopy architecture, lint yield, fibre quality, stress tolerance, and other production attributes. Though, modification of leaf canopy through manual or mechanical topping and pruning was suggested to improve the cotton yields but is not feasible on large scale cultivatiomodification of leaf shape is a practically and economically viable approach to develop varieties with improved
There are four major leaf shapes in tetraploid cotton viz., normal, sub-okra, okratinguishable by simple visual observation. These leaf shapes are governed by a multi
) which has been mapped to short arm of chromosome 15-D1. Another leaf shape laciniatetype in morphology, maps to the orthologous diploid A-genome locus (L-A1) on chromosome 2. Both loci, in tetraploid and diploid cotton, respectively are known to act early in the developmental stage and once
hrough the crop life.
teleomere. Later, orthologous mapping of the locus to the sequenced D genome donor
the putative candidate gene interval to 337 kb carrying 34 putative genes. Through shuttle
, it was further
workers at North Carolina
series of experiments to determine the molecular basis of leaf shape in cotton. They undertook fine mapping of locus using an association mapping panel and two sets of isogenic lines to further narrow down the region to 52 kb
D1a, GhLMI1-D1b, GhRLK1 and GhHRA1. Both GhLMI1Zip transcription factors, GhRLK1 codes for a serine/threonine protein kinase and
codes for a trihelix transcription factor. Through, expression analysis (Quantitative RT-PCR and RNA sequencing), they D1a across leaf shapes and differential expression (upokra) of GhLMI1-D1b. Though, sequencing of GhLMI1
revealed DNA polymorphisms within the loci, comprehensive interpretations based major nucleotide polymorphisms, gene expression differences across leaf shapes and association of markers with the phenotype have strongly indicated
is responsible for the leaf shape variation in cotton. The same was later confirmed by functional validation wherein specific knocking down of GhLMI1-D1b transcript through Virus-Induced Gene Silencing has produced normal leaf in an okra variety. Using a diverse array of genomic and molecular tools, research team lead by Dr. Vasu Kuraparthy have established that the leaf shape in cotton controlled by L-D1 loci is governed by
homologous to the LATE MERISTEM IDENTITY1 (LMI1)
Cotton Innovate | Issue 2 | Volume 5 | May 2017
A weekly newsletter from ICAR-CICR
Leaves are the biological factories in plants and shape of the leaf has a paramount importance in crop improvement. ure, lint yield, fibre quality, stress
tolerance, and other production attributes. Though, modification of leaf canopy through manual or mechanical topping and pruning was suggested to improve the cotton yields but is not feasible on large scale cultivation. Genetic modification of leaf shape is a practically and economically viable approach to develop varieties with improved
okra, and super-okra which are tinguishable by simple visual observation. These leaf shapes are governed by a multi-allelic loci called okra (L-
laciniate in diploid cotton is similar ) on chromosome 2. Both loci, L-D1 and
in tetraploid and diploid cotton, respectively are known to act early in the developmental stage and once
series of experiments to determine the molecular basis of leaf shape in cotton. They undertook fine mapping of L-D1 c lines to further narrow down the region to 52 kb
GhLMI1-D1a and codes for a serine/threonine protein kinase and GhHRA1
PCR and RNA sequencing), they across leaf shapes and differential expression (up-regulation in okra and
GhLMI1-D1a and GhLMI1-D1b revealed DNA polymorphisms within the loci, comprehensive interpretations based major nucleotide polymorphisms,
ssociation of markers with the phenotype have strongly indicated is responsible for the leaf shape variation in cotton. The same was later confirmed by functional
Induced Gene Silencing has produced normal leaf in an okra variety. Using a diverse array of genomic and molecular tools, research team lead by
loci is governed by GhLMI1-D1b IDENTITY1 (LMI1) gene of Arabidopsis.
This new discovery provides needed insights to the cotton researchers and open new avenues for developing cotton cultivars with ideal leaf shape for sustainable and profitable cotton production. Suggested readings:
• Andres RJ, Bowman DT, Jones DC, Kuraparthy V (2016) Major leaf shapes of cotton: Genetics and agronomic effects in crop production. J. Cotton Sci., 20(4): 330–340.
• Andres RJ, Coneva V, Frank MH, Tuttle JR, Han SW, Samayoa LF, Kaur B, Zhu L, Fang H, Bowman DT, Rojas-Pierce M, Haigler CH, Jones DC, Holland JB, Chitwood DH, Kuraparthy V (2016) Modifications to a LMI1-like gene are responsible for the major leaf shapes of Upland cotton (Gossypium hirsutum L.) Proc. Natl. Acad. Sci., 114(1): E57–E66.
Compiled by, Santosh, H. B. and Raghavendra, K. P., ICAR – CICR, Nagpur
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Produced and Published by: Dr. M. S. Ladaniya, Director, CICR, Nagpur Chief Editor : Dr. S. M. Wasnik Digital Editor, design & Media Support : Dr. M. Sabesh Editors: Dr. J Annie Sheeba, Dr. Vishlesh Nagrare, Dr. J Amutha, Dr. M Saravanan Citation : Cotton Innovate, Issue-2, Volume-5, 2017, ICAR-Central Institute for Cotton Research, Nagpur.�
Publication Note: This Newsletter presented online at http://www.cicr.org.in/cotton_innovate.html
Cotton Innovate is the Open Access CICR Newsletter
The Cotton Innovate – is published weekly by ICAR-Central Institute for Cotton Research Post Bag No. 2, Shankar Nagar PO, Nagpur 440010 Phone : 07103-275536; Fax : 07103-275529; email: [email protected], [email protected]�