The invention relates to sesame genetics and breeding. Specifically, the invention relates to genetic improvement for shatter resistant capsules. More specifically, the invention relates to novel quantitative trait loci (QTL) conferring shatter resistant capsules, and methods thereof, including methods for introgressing the novel QTL into elite germplasm in a breeding program for shatter resistant capsules.

A Sidt1 gene controlling a determinate growth habit of sesame, the gene having a length of 1809 bp and including four exons and three introns. The Sidt1 gene is located on the fourth chromosome of sesame and in an 18.0-19.2 cM interval of the eighth linkage group on an SNP genetic map of sesame. The DNA sequence of the Sidt1 gene is represented by SEQ ID NO. 1. A cDNA sequence of the Sidt1 gene has a length of 531 bp and encodes 176 amino acids, and the cDNA sequence is represented by SEQ ID NO. 2. An SNP molecular marker Sidt27-1 of the Sidt1 gene has a length of 92 bp and is located at a base sequence from 378 to 469 of the Sidt1 gene, and a DNA sequence of the SNP molecular marker Sidt27-1 is represented by SEQ ID NO. 3.

Provided are sesame plants having a mutation conferring closed capsules at maturity and means and methods for producing same. The plants of the present subject matter produce high yield of sesame seeds, the seeds having improved content of at least one of zinc, iron and calcium.

Provided are sesame plants having a mutation conferring closed capsules at maturity and means and methods for producing same. The plants of the present subject matter produce high yield of sesame seeds, the seeds having improved content of at least one of zinc, iron and calcium.

The invention relates to sesame genetics and breeding. Specifically, the invention relates to genetic improvement for shatter resistant capsules. More specifically, the invention relates to novel quantitative trait loci (QTL) conferring shatter resistant capsules, and methods thereof, including methods for introgressing the novel QTL into elite germplasm in a breeding program for shatter resistant capsules.

The present invention relates to sesame plants resistant to herbicides that inhibit the plant enzyme acetolactate synthase (ALS), and further to compositions and methods for producing the same.

The present invention relates to sesame plants resistant to herbicides that inhibit the plant enzyme acetolactate synthase (ALS), and further to compositions and methods for producing the same.