TY - JOUR
T1 - Exploiting a fast neutron mutant genetic resource in Pisum sativum L. (pea) for functional genomics
AU - Domoney, Claire
AU - Knox, Maggie
AU - Moreau, Carol
AU - Ambrose, Mike
AU - Palmer, Sarah
AU - Smith, Peter
AU - Christodoulou, Vangelis
AU - Isaac, Peter
AU - Hegarty, Matthew John
AU - Blackmore, Tina Michelle
AU - Swain, Martin Thomas
AU - Ellis, Noel
N1 - Domoney, C., Knox, M., Moreau, C., Ambrose, M., Palmer, S., Smith, P., Christodoulou, V., Isaac, P., Hegarty, M. J., Blackmore, T. M., Swain, M. T., Ellis, N. (2013). Exploiting a fast neutron mutant genetic resource in Pisum sativum L. (pea) for functional genomics. Functional Plant Biology, 40 (12), 1261-1270.
It is an output from theTSB funded project "Protein content vs yield: releasing the constraint
PY - 2013/8/28
Y1 - 2013/8/28
N2 - A fast neutron mutagenised population was generated in Pisum sativum L. (pea) to enable the identification and isolation of genes underlying traits and processes. Studies of a number of phenotypic traits have clearly demonstrated the utility of the resource by associating gene deletions with phenotype followed by functional tests exploiting additional mutant sources, from both induced and natural variant germplasm. For forward genetic screens next generation sequencing methodologies provide an opportunity for identifying genes associated with deletions rapidly and systematically. The application of rapid reverse genetic screens of the fast neutron mutant pea population supports conclusions on the frequency of deletions based on phenotype alone. These studies further suggest that large deletions affecting one or more loci can be non-deleterious to the pea genome, yielding mutants that could not be obtained by other means. Deletion mutants affecting genes associated with seed metabolism and storage are providing unique opportunities to identify the products of complex and related gene families, and to study the downstream consequences of such deletions
AB - A fast neutron mutagenised population was generated in Pisum sativum L. (pea) to enable the identification and isolation of genes underlying traits and processes. Studies of a number of phenotypic traits have clearly demonstrated the utility of the resource by associating gene deletions with phenotype followed by functional tests exploiting additional mutant sources, from both induced and natural variant germplasm. For forward genetic screens next generation sequencing methodologies provide an opportunity for identifying genes associated with deletions rapidly and systematically. The application of rapid reverse genetic screens of the fast neutron mutant pea population supports conclusions on the frequency of deletions based on phenotype alone. These studies further suggest that large deletions affecting one or more loci can be non-deleterious to the pea genome, yielding mutants that could not be obtained by other means. Deletion mutants affecting genes associated with seed metabolism and storage are providing unique opportunities to identify the products of complex and related gene families, and to study the downstream consequences of such deletions
KW - fast neutron mutagenesis
KW - genomic deletions
KW - seed proteins
UR - http://hdl.handle.net/2160/29865
U2 - 10.1071/FP13147
DO - 10.1071/FP13147
M3 - Article
SN - 1445-4408
VL - 40
SP - 1261
EP - 1270
JO - Functional Plant Biology
JF - Functional Plant Biology
IS - 12
ER -