...花青素(anthocyanin)是植物重要的次级代谢产物之一,主要以糖苷的形式存在于植物细胞中,赋予植物缤纷的色彩,是迄今为止所发现的最强效的自由基清除剂。
基于3742个网页-相关网页
Anthocyanin content 总花青素含量 ; 花色素苷含量
Black Rice Anthocyanin 黑米提取物
CASSIS ANTHOCYANIN 黑加仑色素
sweetpotato anthocyanin 建立了甘薯块根花青素 ; 甘薯块根花青素
anthocyanin regulatory gene 花色素苷调节基因
anthocyanin content of plant 植物花色素苷含量
In Arabidopsis and other plants,TTG1 gene has been proved to play an important role in anthocyanin biosynthetic pathway.
多种植物研究表明,TTG1基因在花青素合成途径中起着重要的调控作用。
参考来源 - 甘蓝型油菜及其亲本物种TTG1和TT18基因家族的克隆与比较基因组学研究After drought stress in green cultivar, leaf and stem appeared notable accumulation of anthocyanin and became red.
绿色品种在干旱胁迫处理后,叶和茎都出现了显著的花色素苷的积累而变红。
参考来源 - 彩叶草(Solenostemon scutellarioides)叶色形成相关的花色素苷生物合成途径的分子调控研究Anthocyanin is ubiquitously produced in plant root, stem, leaf and fruit, which is a important class of secondary metabolites synthesized during photomorphogenesis or as a response to different stress signals.
花青苷在植物根、茎、叶、花、果实器官中有着广泛的分布,是在植物形态建成过程中或响应多种逆境信号而产生的一种重要的次生代谢物质。
参考来源 - 花青苷对番茄(Lycopersicon esculentum Mill.)幼苗叶片光合机构的保护作用及番茄花青苷结构特性的研究The CHS gene which is obvious correlated with anthocyanin accumulation was cloned as well.
对与花青素积累有明显相关的CHS基因进行了克隆。
参考来源 - 光环境影响花青素合成途径中相关基因表达的机制·2,447,543篇论文数据,部分数据来源于NoteExpress
以上来源于: WordNet
N any of a class of water-soluble glycosidic pigments, esp those responsible for the red and blue colours in flowers. They are closely related to vitamins E and P 花青素
Leaves develop chlorosis; stems are short and slender, and anthocyanin discoloration occurs on stems, petioles, and lower leaf surfaces.
叶片变得萎黄,茎短而纤细,并且在茎、叶柄和叶片下表面会出现花青素变色。
Phosphorus-deficient plants are often stunted, with leaves turning a characteristic dark green, often with the accumulation of anthocyanin.
缺磷植物常发育不良,叶片呈典型的深绿色,常伴有花青素的积累。
Smith says that some species, most famously maples, produce anthocyanin during autumn as a kind of antioxidant for trees.
史密斯说,一些物种,例如最有名的枫树,在秋天会产生的一种抗氧化剂的花青素。
应用推荐