0000000000739212
AUTHOR
Marion Dalmais
Induced mutations in the TI1 gene encoding a major double-headed protease inhibitor in Pisum sativum L. can reduce significantly the inhibition of target enzymes
BAP GEAPSI; International audience; Trypsin / chymotrypsin inhibitors in the seeds of many legume crop species are regarded as antinutritional proteins often leading to a requirement for heat-treatment of seed products prior to their use in feed. A TILLING resource developed in Pisum sativum L. (pea) was exploited to identify mutants in the major seed-expressed trypsin / chymotrypsin inhibitor gene, TI1, where the inhibition of either or both of the target enzymes may be reduced. Three lines with missense mutations in TI1, predicted to affect activity through alteration of (a) a conserved cysteine residue, (b) the P1′ serine within the active site of the chymotrypsin inhibitory domain or (c…
GRaSP project Genetics of Rhizobia Selection by Pea
Prod 2019-88aa; National audience; Because of their ability to fix nitrogen in symbiosis with soil bacteria, legumes such as peas have an important role to play in the development of a sustainable agriculture. However, in the field, biological nitrogen fixation (BNF) could be suboptimal as natural Rhizobium leguminosarum viciae (Rlv) populations are quantitatively and qualitatively heterogeneous, with strains varying in their competitiveness and efficiency of BNF [1,2]. There is a general agreement concerning the interest of Rlv inoculation for improving BNF and thus pea yield [3]. However, even when pea seeds are inoculated by efficient Rlv strains these can be outcompeted by indigenous rh…
TILLING resources in pea: a valuable tool for functional validation
Prod 2019-88t BAP GEAPSI INRA; National audience; Since 2004, two INRA teams (UMR Agroecology Dijon and IJBP, Versailles), both partners of PEAMUST, have created 3 EMS-induced mutant collections in the framework of European or French ANR projects. The genotypes chosen for these collections have specific agronomic traits according to the research subject. For example, the Terese rms3 and -rms4 branched genotypes (Rameau et al., 1997) are well suited to the study of shoot architecture in relation with strigolactone and the lines easy to grow and to backcross in glasshouse conditions. Caméor, an early cultivar with high seed protein content, is the reference genotype for the pea sequencing pro…