Gossypol and related compounds are produced and accumulate in the aboveground parts of the cotton plant, independent of roots as the source [0.03%]
棉红根菌和相关化合物在棉花植株的地上部分产生并积累,而与根部作为来源无关
Devendra Pandeya,LeAnne M Campbell,Lorraine Puckhaber et al.
Devendra Pandeya et al.
Use of Ultra-low gossypol cottonseed event as a scion in a graft combination confirmed that roots are not a source of terpenoids in the aboveground parts of a cotton plant. Gossypol and related terpenoids, derived from the same basic biosyn...
Juan Betancurt Cardona,Sajjan Grover,Lucas Busta et al.
Juan Betancurt Cardona et al.
Quantification of cuticular waxes coupled with insect bioassays and feeding behavior analysis demonstrate that long-chain C32 fatty alcohol impacts host plant selection by aphids. Cuticular waxes constitute the first point of contact betwee...
Transcriptome profiling of celery petiole tissues reveals peculiarities of the collenchyma cell wall formation [0.03%]
芹菜叶柄组织的转录组分析揭示了厚角细胞壁形成的特殊性
Natalia Mokshina,Anastasia Panina,Dmitry Galinousky et al.
Natalia Mokshina et al.
Transcriptome and biochemical analyses are applied to individual plant cell types to reveal potential players involved in the molecular machinery of cell wall formation in specialized cells such as collenchyma. Plant collenchyma is a mechan...
A novel tasi RNA-based micro RNA-induced gene silencing strategy to tackle multiple pests and pathogens in cotton (Gossypium hirsutum L.) [0.03%]
一种新的tasi RNA为基础的微RNA诱导基因沉默策略以解决棉花(Gossypium hirsutum L.)中的多种害虫和病原体问题
Kesiraju Karthik,Alkesh Hada,Akansha Bajpai et al.
Kesiraju Karthik et al.
This study demonstrates the combinatorial management of multiple pests through a trans-acting siRNA (tasiRNA)-based micro RNA-induced gene silencing (MIGS) strategy. Transgenic cotton events demonstrated improved efficacy against cotton lea...
Ravikumar Hosamani,Basavalingayya K Swamy,Ajwal Dsouza et al.
Ravikumar Hosamani et al.
Hypergravity is an effective novel stimulus to elucidate plant gravitational and mechanobiological behaviour. Here, we review the current understanding of phenotypic, physio-biochemical, and molecular plant responses to simulated hypergravi...
Transcription factor TaGAMYB from wheat (Triticum aestivum L.) regulates flowering time and fertility in transgenic Arabidopsis thaliana [0.03%]
小麦(Triticum aestivum L.)转录因子TaGAMYB通过转基因拟南芥调节开花时间和肥沃度
Xuetong Yang,Kai Wang,Limeng Ge et al.
Xuetong Yang et al.
The loss of TaGAMYB function in Arabidopsis results in abnormal pollen development and leads to decreased fertility. This process may be regulated by microRNAs, which suppress the expression of fatty acid pathway genes. Development of the a...
Genome-wide analysis of the laccase gene family in wheat and relationship with arbuscular mycorrhizal colonization [0.03%]
小麦漆酶基因家族的全基因组分析及其与丛植霉根菌的关系
Xiong Zhong,Mengjiao Li,Mingming Zhang et al.
Xiong Zhong et al.
We identified 156 laccase genes belonging to 11 subfamilies in the wheat genome, and the natural variation of laccase genes significantly affected the development of wheat-arbuscular mycorrhizal symbiosis. Laccases (LACs) have a variety of ...
Yongwei Gao,Kangjia Liu,Enzhe Li et al.
Yongwei Gao et al.
This study compared the plastomes of Ulmaceae allowing analyses of the dynamic evolution, including genome structure, codon usage bias, repeat sequences, molecular mutation rates, and phylogenetic inferences. Ulmaceae is a small family in t...
Biochemical defense mechanism associated with host-specific disease resistance pathways against Rhizoctonia solani AG3-PT potatoes canker disease [0.03%]
与寄主特异性抗病途径相关的生化防御机制可抵抗Rhizoctonia solani AG3-PT马铃薯癌肿病
Bita Soheili-Moghaddam,Mehdi Nasr-Esfahani,Sedigheh Mousanejad et al.
Bita Soheili-Moghaddam et al.
Screening for resistance in 40 potato genotypes to Rhizoctonia solani AG-3PT-stem-canker, antioxidant enzymes activity as well as total phenol compounds were documented. Rhizoctonia solani AG-3PT-stem-canker is one of the most devastating d...
Emanoelly Roberta de Carvalho Morais,Nathalia Maira Cabral de Medeiros,Francinaldo Leite da Silva et al.
Emanoelly Roberta de Carvalho Morais et al.
ScHINT1 was identified at sugarcane SAM using subtractive libraries. Here, by bioinformatic tools, two-hybrid approach, and biochemical assays, we proposed that its role might be associated to control redox homeostasis. Such control is impo...