Nutritional functions of the funiculus in Brassica napus seed maturation revealed by transcriptome and dynamic metabolite profile analyses

Tan, Honglue; Xiang, Xiaoe; Tang, Jie; Wang, Xingchun

doi:10.1007/s11103-016-0530-3

Cited by 12 publications

(4 citation statements)

References 42 publications

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“…BAM plays an important role in starch degradation and serves as a major enzyme in hydrolytic process of linear glucans in the plastid. The degraded maltose is exported to the cytosol by a specific chloroplast membrane protein, which is a maltose transporter, to maintain the cycle balance of sucrose–starch metabolism [ 23 , 24 ]. At present, there are many studies on the nine AtBAM genes of Arabidopsis , but not all the functions of each family member have been clarified.…”

Section: Discussionmentioning

confidence: 99%

Genome-Wide Investigation of BAM Gene Family in Annona atemoya: Evolution and Expression Network Profiles during Fruit Ripening

Wang

Jing

et al. 2023

IJMS

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β-amylase proteins (BAM) are important to many aspects of physiological process such as starch degradation. However, little information was available about the BAM genes in Annona atemoya, an important tropical fruit. Seven BAM genes containing the conservative domain of glycoside hydrolase family 14 (PF01373) were identified with Annona atemoya genome, and these BAM genes can be divided into four groups. Subcellular localization analysis revealed that AaBAM3 and AaBAM9 were located in the chloroplast, and AaBAM1.2 was located in the cell membrane and the chloroplast. The AaBAMs belonging to Subfamily I contribute to starch degradation have the higher expression than those belonging to Subfamily II. The analysis of the expression showed that AaBAM3 may function in the whole fruit ripening process, and AaBAM1.2 may be important to starch degradation in other organs. Temperature and ethylene affect the expression of major AaBAM genes in Subfamily I during fruit ripening. These expressions and subcellular localization results indicating β-amylase play an important role in starch degradation.

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Section: Discussionmentioning

confidence: 99%

Genome-Wide Investigation of BAM Gene Family in Annona atemoya: Evolution and Expression Network Profiles during Fruit Ripening

Wang

Jing

et al. 2023

IJMS

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“…Al toxicity stress limits the crop growth and yield by affecting root meristem, cell mitosis and root growth in crops [ 8 , 34 ]. Al toxicity has been reported in various crops targeting root related traits such as longest and primary root growth, total root growth and relative root elongation for discovering genes involved in Al tolerance by GWAS approach [ 13 , 35 , 36 ].…”

Section: Discussionmentioning

confidence: 99%

Integration of GWAS and transcriptome analyses to identify SNPs and candidate genes for aluminum tolerance in rapeseed (Brassica napus L.)

Zhou

Xiao

Ali³

et al. 2022

BMC Plant Biol

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Background The exchangeable aluminum (Al), released from the acid soils, is another addition to the environmental stress factors in the form of Al toxicity stress. Al stress affects the normal crop development and reduces the overall yield of rapeseed (Brassica napus L.). The response mechanism of plants to Al toxicity is complicated and difficult to understand with few QTL related studies in rapeseed under Al toxicity stress. Result Using 200,510 SNPs developed by SLAF-seq (specific-locus amplified fragment sequencing) technology, we carried out the genome-wide association analysis (GWAS) in a population of 254 inbred lines of B. napus with large genetic variation and Al-tolerance differences. There were 43 SNPs significantly associated with eight Al-tolerance traits in the seedling stage were detected on 14 chromosomes, and 777 candidate genes were screened at the flanking 100 kb region of these SNPs. Moreover, RNA-seq detected 8291 and 5341 DEGs (the differentially expressed gene) in the Al -tolerant line (ATL) and -sensitive line (ASL), respectively. Based on integration of GWAS and RNA-seq analysis, 64 candidate genes from GWAS analysis differentially expressed at least once in 6 h vs 0 h or 24 h vs 0 h conditions in ATL or ASL. Moreover, four out of sixty-four candidate genes (BnaA03g30320D, BnaA10g11500D, BnaC03g38360D and BnaC06g30030D) were differentially expressed in both 6 h and 24 h compared to 0 h (control) conditions in both lines. The proposed model based on the candidate genes excavated in this study highlighted that Al stress disturb the oxidation-redox balance, causing abnormal synthesis and repair of cell wall and ABA signal transduction, ultimately resulting in inhibition of root elongation. Conclusions The integration of GWAS and transcriptome analysis provide an effective strategy to explore the SNPs and candidate genes, which has a potential to develop molecular markers for breeding Al tolerant rapeseed varieties along with theoretical basis of molecular mechanisms for Al toxicity response of Brassica napus plants.

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“…Another factor that affects the yield of oil extraction is the state of maturity of the seed (Bozdogan and Mungan, 2016;Shan-Shan et al, 2015), since according to some studies, different FA will be found as the fruit is more mature, or FA at higher concentrations in the seed (Tan et al, 2016). Other factors that have an influence are the different types of cultivars (Salvador et al, 2016;Zhang et al, 2016;Shan-Shan et al, 2015), the growth region, and the sample harvest (Zhang et al, 2016), as well as the post-harvest management.…”

Section: Recent Researchmentioning

confidence: 99%

Lychee (Lychee chinensis Sonn.), composition and possible applications

Torres-Becerril,

ZALDÍVAR CRUZ,

Ojeda-Enciso

2024

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Objective: to mention the importance of the bioactive compounds and fatty acids (FA) present in lychee, in addition to their possible applications Lychee is a fruit originally from Asia, which has sweet pulp and juice, presents an attractive appearance and pleasant flavor, in addition to high nutritional value, so that it is quite accepted by consumers. Lychee is a great source of bioactive compounds such as tannins and vitamin B1. Because of its functionality, it has various uses as in the preparation of teas and medicinal remedies. Because of the functionality it has, it is important to research this fruit in detail and to find possible applications. Therefore, the objective of this study.

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Nutritional functions of the funiculus in Brassica napus seed maturation revealed by transcriptome and dynamic metabolite profile analyses

Cited by 12 publications

References 42 publications

Genome-Wide Investigation of BAM Gene Family in Annona atemoya: Evolution and Expression Network Profiles during Fruit Ripening

Genome-Wide Investigation of BAM Gene Family in Annona atemoya: Evolution and Expression Network Profiles during Fruit Ripening

Integration of GWAS and transcriptome analyses to identify SNPs and candidate genes for aluminum tolerance in rapeseed (Brassica napus L.)

Lychee (Lychee chinensis Sonn.), composition and possible applications

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