Construction of Shoot Apical Meristem cDNA Yeast Library of L. and Screening of Proteins That Interact with the Inflorescence Regulatory Factors BnTFL1s.

The determinate inflorescence trait of L. is associated with various desirable agricultural characteristics. ( and ), which encode the transcription factor have previously been identified as candidate genes controlling this trait through map-based cloning.

Identification candidate genes for salt resistance through quantitative trait loci-sequencing in Brassica napus L.

Rapeseed (Brassica napus L.) is one of the most important oil crops worldwide. However, its yield is greatly limited by salt stress, one of the primary abiotic stresses.

Gene Co-Expression Analysis Reveals the Transcriptome Changes and Hub Genes of Fructan Metabolism in Garlic under Drought Stress.

Drought has become a serious environmental factor that affects the growth and yield of plants. Fructan, as an important storage compound in garlic, plays an important role in drought tolerance. Genomic changes in plants under drought stress clarify the molecular mechanism of plants' responses to stress.

Integrated Transcriptomics and Metabolomics Analysis of the Fructan Metabolism Response to Low-Temperature Stress in Garlic.

As the main reserve carbohydrate in garlic, fructan contributes to garlic's yield and quality formation. Numerous studies have shown that plant fructan metabolism induces a stress response to adverse environments. However, the transcriptional regulation mechanism of garlic fructan in low-temperature environments is still unknown.

Transcriptomic analysis of rapeseed (. L.) seed development in Xiangride, Qinghai Plateau, reveals how its special eco-environment results in high yield in high-altitude areas.

As one of the most important oil crops, rapeseed () is cultivated worldwide to produce vegetable oil, animal feed, and biodiesel. As the population grows and the need for renewable energy increases, the breeding and cultivation of high-yield rapeseed varieties have become top priorities. The formation of a high rapeseed yield is so complex because it is influenced not only by genetic mechanisms but also by many environmental conditions, such as climatic conditions and different farming practices.

A novel locus (Bnsdt2) in a TFL1 homologue sustaining determinate growth in Brassica napus.

Background: The determinate growth habits is beneficial for plant architecture modification and the development of crops cultivars suited to mechanized production systems. Which play an important role in the genetic improvement of crops. In Brassica napus, a determinate inflorescence strain (4769) has been discovered among doubled haploid (DH) lines obtained from a spring B.

Comparative Mapping Combined With Map-Based Cloning of the Genome Reveals a Candidate Gene for Multilocular Rapeseed.

Multilocular traits exist in a variety of plants and exert important effects on plant yield. Previous genetic studies have shown that multilocular trait of the cultivar Duoshi is controlled by two recessive genes, and . In previous studies, the gene is located on chromosome A07, and the candidate gene is .

Fine mapping of the Brassica napus Bnsdt1 gene associated with determinate growth habit.

The newly discovered determinate plant growth habit of Brassica napus is a potential trait that might contribute to the genetic improvement of rapeseed. Brassica napus is an important species of rapeseed and has an indeterminate growth habit. However, a determinate inflorescence strain (4769) has been discovered among doubled haploid (DH) lines obtained from a spring B.