cruciferae n.〔pl.〕 【植物;植物學】十字花科。
n. 〔pl.〕 【植物;植物學】十字花科。 “phyllotreta cruciferae“ 中文翻譯: 蔬菜黃條跳甲“crowder crowne social cruciferae“ 中文翻譯: 十字花科“cruciferous“ 中文翻譯: adj. 1.【植物;植物學】十字花科的;有十字形花的。 2.【宗教】捧持十字架的。 “crucifer yellow mosaic“ 中文翻譯: 十字花科蔬菜黃花病“cruciferous corolla“ 中文翻譯: 十字形花冠“crucifer mosaic virus“ 中文翻譯: 十字花科花葉病毒; 十字花科花葉簿,蕪菁花葉簿“cruciferous plant“ 中文翻譯: 十字花科植物“crucifer mosaic“ 中文翻譯: 十字花科蔬菜孤丁病; 十字花科蔬菜花葉病“cruciferous type“ 中文翻譯: 十字花科型“crucifer club root“ 中文翻譯: 十字花科蔬菜根腫病“cruciferous vegetables“ 中文翻譯: 十字花科蔬菜“crucifer caterpillar“ 中文翻譯: 甘藍暝
cruciferous |
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The results showed that the compatibility indexes were obviously higher when the male sterile lines were used as the female parent than when their respective maintainer counterparts were used as the female parent , indicating the male sterile cytoplasmic effects on interspecific cross incompatibilities in cruciferae 結果表明:三種類型的不育系均有一致的趨向,即用不育系和保持系與同一親本雜交的親和指數,不育系作母本的明顯高于以保持系作母本的組合,表明十字花科種間雜交親和性具有雄性不育細胞質遺傳效應。 |
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The sesults show that there were 48 species ( variety ) of plant belonging to 14 families as hosts of b . tabaci , among which cucurbitaceae , solanaceae , cruciferae , euphorbiaceae , labiatae , leguminosae and malvaceae are the main host families , and the plants of families of cucurbitaceae and solanaceae are damaged most seriously 結果表明,煙粉虱的寄主有14科48種(變種) ,主要寄主植物是葫蘆科、茄科、十字花科、豆科、錦葵科、菊科等;其中,茄科和葫蘆科的植物受害最重。 |
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In this paper , phylogenetic relationship of 13 species involved in 6 genera of cruciferae wer e carried out through both the clones of homologous sequences with the primers designed on the basis of conserved regions of cyp86mf gene in cytochrome p450 gene superfamily and the differential analyses of them . meanwhile , complete sequences of some genes in cytochrome p450 gene superfamily were isolated and identified by smart pcr - race strategy , and expressed in e . colt . the results were as follows : ( 1 ) isolated by pcr from 11 species of cruciferae , eleven homologous gene segments that deduced amino acids were identities of over 80 % at nucleotide sequence level and similarities of over 70 % at amino acid sequence level 本論文以已知的細胞色素p450基因超家族成員cyp86mf基因的保守區設計引物對十字花科重要蔬菜作物的6個屬13個物種進行了同源序列的分離克隆,通過核酸序列的差異比較分析,研究了該基因在不同物種中的進化關系;同時,通過保守引物的pcr擴增和race相結合的方法對十字花科植物不同物種的細胞色素p450基因家族成員基因全長進行了分離克隆、鑒定和原核表達的研究,獲得如下研究結果: ( 1 )通過pcr從十字花科植物不同物種中擴增到11個可以推導出完整氨基酸序列的同源片段。 |
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Two primers , designed according to the conserved regions of ban gene in arabidopsis thaliana , were used to amplify the ban homologous fragments from the genomic dna of brassica napus , b . chinensisl , b . juncea , a . thaliana and other cultural plants of cruciferae . the very similar pcr fragments were obtained from all the amplifications , which implicated that ban may be a conserved gene existing widely in the genomes of cruciferae . pcr fragments were cloned and confirmed by restriction enzyme digestion 參照擬南芥( arabidopsisthaliana ) ban基因與cdna設計引物,對甘藍型、白菜型、芥菜型油菜,擬南芥及其它十字花科栽培品種的基因組dna進行pcr擴增,均擴增出與擬南芥ban基因擴增片段大小極其相似的dna片段,提示ban可能廣泛存在于十字花科植物中。 |
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In view of the fact that cruciferae crops not only account for the largest growing area of vegetable crops but also play an important role in agricultural activities and lives of people in china , it has been our objective that their germplasm resources were fully utilized 十字花科( cruciferae )植物是中國蔬菜作物中栽培面積最大的一類,在我國農業生產和人民生活中占有非常重要的地位,對十字花科植物種質資源的充分利用一直是人們努力的方向。 |
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With the developments of molecular biology and bioinformatics , it is possible to elucidate the phylogenetic evolutionary relationship of cruciferae at the molecular level 隨著分子生物學和生物信息學的發展,從分子水平闡明十字花科植物系統演化關系成為可能。 |
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In the end , the results in this article were compared to the its sequences of other species in cruciferae and their phylogenetic relations were discussed 本文還將所得的結果與已發表的部分十字花科其它屬植物的its序列進行比較,探討了該科植物系統發育情況。 |
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However , there have been many of ambiguities and divergences for the taxa of family , genus and species in cruciferae for a long time 但長期以來,對于十字花科族、屬和種的劃分存在很多問題和爭議。 |
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Larvicidal activity of the symbiotic bacterium xenorhabdus nematophilus hb310 against three species of cruciferae pests 310對3種十字花科蔬菜害蟲殺蟲活性的研究 |
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Genetic and mapping analysis of arabidopsis thaliana male sterile mutant ms1502 cruciferae 1502的遺傳及定位分析 |
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Insects in cruciferae greens amp; amp; it ' s comprehensive elimination measures 咸寧市小菜蛾的發生規律及防治方法 |
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Progress of study on pest biological control of cruciferae vegitables 十字花科蔬菜害蟲生物防治研究進展 |
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Application of isozyme technique in cruciferae crop breeding 同工酶技術在植物研究中的應用 |