brassicaceae 中文意思是什麼

brassicaceae 解釋
十字花科
  1. In addition, homologous alignments and analyses of identical percentage were made between corresponding cdna sequences to cal homologs of 8 plants in the same family, brassicaceae. according to the information of above phylogenetic tree was drawn

    另外,對8種十字花科植物cal同源基因中相應cdna序列進行了同源性比對和一致性分析,並據此繪制了它們之間的進化樹。
  2. The analysis of these two sequences and reported sequences ( three families, 15 sequences in total ) by nj method and the simplest principle shows, the evolutionary trees established by these two methods are consistent and the sequences of the same family constitute one group. the sequences of thaliana and the sequences of brassicaceae each makes up a sub - group in it. the sequences of violaceus distribute in brassicaceae sub - group and this phenomena shows that the relationship is very near

    我們對這些序列與已發表的相應序列(合計3個科, 15個序列)用nj法和最簡約性分析,結果表明:由兩種方法構建的進化樹是一致的,同一科的序列形成一組:在十字花科組的分之圖中,來自於擬南芥屬的序列與來自於蕓墓屬的序列又各自形成亞組;來自於諸葛菜屬的序列分佈在蕓墓屬的分之圖中,揭示出諸葛菜屬與蕓矍屬有著極其近的親源關系。
  3. An oligo - nucleotide primer was designed according to a conservative fragment of this gene of plants in genebank. two 3 ' - end coding sequences of this gene ( including complete sequences of exon 8, 7, 6, 5, 4 and partial sequences of exon 3 ), one, 1097bp, and the other 1109bp, were successfully isolated from brassicaeae napus and brassicaeae campestris. the dna sequence analysis shows that the two fragments are more than 90 % identical to orychophragmus violaceus, arabidopsis thaliana and brassicaceae napus

    同源對比分析已有的植物epsps基因序列,我們找到了該基因中一段極為保守的序列並設計了一條寡核苷酸引物,採用3 』 race法,從植物蜀雜9號油菜,白菜型油菜總rna中成功的擴增出了epsps基因3 』端編碼區(包含外顯子8 、 7 、 6 、 5 、 4的全部序列及外顯子3的部分序列) ,分別長1097bp , 1109bp 。
  4. Brassica a genus of plants of the cabbage family ( brassicaceae ) that includes many vegetables and fodder plants

    蕓苔屬:十字花科的一屬植物,包括許多蔬菜和草料植物。
  5. Analysis of the variation of bases of epsps of brassicaceae, solanaceae and poaceae indicate that the evolutionary rates of epsps are different between brassicaceae and solanacea e and the rate in solanaceae is higher than the rate in brassicaceae according to the total substitution rate of bases

    分別對十字花科、茄科、禾本科序列的堿基變異情況分析,結果表明, epsps基因在十字花科和茄科中的進化速率不一樣,對于總的堿基替換率,茄科高於十字花科。
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