英语人>词典>汉英 : 茎的结构的 的英文翻译,例句
茎的结构的 的英文翻译、例句

茎的结构的

基本解释 (translations)
caulomic

更多网络例句与茎的结构的相关的网络例句 [注:此内容来源于网络,仅供参考]

The "Phoenix" was just one of the dramatic "pictorial" crop formations which appeared in the fields of England last summer--and to our surprise the plant samples taken from it (and several of the other equally astounding formations) showed clear evidence of exposure to a plasma discharge: stunted and poorly-developed seed-heads, massive apical node elongation, expulsion cavities and--in several cases--node bending which could not be attributed to phototropism/gravitropism.

"凤凰"只是其中一个戏剧性的作物结构"图案",去年夏天出现在英格兰的田地-和令我们吃一惊的是取自它的植物样本(及几个其它同样惊人的结构)显示清楚的证据,曾在一等离子体放电下暴露:发育迟缓和弱发展的种子头,大量的顶上茎节延伸,驱逐凹处及-在一些情况下-茎节弯曲并不能归因於向光性/重力影响。

The central issue of this paper is the study of DNA-binding proteins interacted with DNA replication origin. The paper presented here includes there parts which are related as well as independent of each other:(1). Identification and partially purification of DNA-binding proteins interacted with eukaryotic DNA replication origin;(2) Specific binding of Hela cell proteins to Samian Virus 40 replication origin with the cruciform structure (Stem-Loop structure);(3) The study of DNA-binding protein as a tumor marker.

本文对DNA结合蛋白的研究主要包括三个即有关联,又相对独立的方面:(1)猿猴肾脏细胞复制起始区DNA结合蛋白的鉴定和部分纯化;(2)Hela细胞中DNA结合蛋白对含茎环结构的SV40复制起始区DNA的特异性结合;(3)DNA结合蛋白做为肿瘤征兆物的研究。

Only one case had length of styloid process less than 30mm and inclined angle less than 25 degree on both sides. Conclusion: Excessive length of styloid process and abnormal angle play important role in diagnosing styloid process. 64slice spiral CT three dimension VR and MPR can display styloid process clearly in three dimension space, measure the length exactly, and show the relationship between styloid process and tissue around distinctly. It is a precise and ideal way for diagnosis of styloid process.

茎突过长结合角度异常是诊断茎突综合征的重要依据。64排螺旋CT MPR和VR重建能清楚、直观地显示茎突在三维空间的全貌,准确地测量其长度、角度以及反应其与周围组织结构的关系,是诊断茎突综合征的一种较准确、且理想的检查方法。

There are three copies of R fragment in the S mt-genome, and each copy contains two closely adjacent open reading frames: orf355 and orf77. Among these three copies two BamHI fragments were cloned, and the sequence analysis showed that cox1 and cox2 gene lies upstream of the R region in each fragment, respectively. However, they locate in different strands and head to head with R. In this study, we found that:(1) The expression of cox1 and cox2 is not affected by the transcription of R region;(2) The two copies of R region transcribe in large amount in the microspores, and produce transcripts of 1.6kb and 2.8kb, respectively, in the sterile microspores; However, the abundance of these two transcripts is reduced in the fertility restored microspores, realized through the mRNA decay, and this reduction occurs at the uninucleate microspore stage;(3) In the sterile microspores, the 5 terminus of the 1.6kb transcript contains a palindrome region that can fold into a stem-loop.

本研究发现:(1) cox1和cox2的转录没有受到R区转录的影响;(2)两个拷贝的R区在在不育花粉中高丰度表达,其转录本大小分别为1.6kb和2.8kb;而在育性恢复的花粉中,这两个转录本的丰度被大大降低,进一步分析表明这一结果是通过mRNA分子的降解途径来实现的,此降解过程发生在单核花粉期;(3)在不育花粉中,1.6kb转录本的5′末端具有一段可形成茎环结构的迴文对称序列,而在可育花粉中,其5′末端短缺了9个碱基;(4)在不育花粉和育性恢复的花粉中,R区转录本的加尾位点都集中位于一个3′茎环结构之后;(5)不管是在不育花粉还是育性恢复的花粉中,orf77区域内均在第52位和100位核苷酸处发生了不同频率的C向U的编辑,从而形成UGA终止密码;(6)不管是orf55-orf77的成熟转录本还是转录前体分子,都已被加上了Poly尾巴,表明已进入降解途径;在以上实验结果的基础上,本研究对S型CMS花粉育性的恢复机理进行了如下推测:在不育花粉和育性恢复的花粉中,orf77区域内均发生了终止编辑,即由RNA编辑产生了提前终止密码子。

For assisting identification of crude drug Herba Dendrobii. Methods Morphological and histological studies were carried out on 11 medicinal plant roots in Dendrobium Sw. by microstructural observation. The 11 species were divided into three groups according to their stem morphology: a pair fleshy-stem group, including D. chrysanthum, D. crepidatum, D. primulinum, D. hercoglossum, and D. crystallium; b thick-and rigid-stem group, including D. fimbriatum and D. aurantiacum var. denneanum; c node-or inter- node- bulgy-stem group, including D. findlayanum, D. gratiosissimum, D. pendulum, and D. wardianum. The surface descriptions of velamen were conducted for D. fimbriatum and D. aurantiacum var. denneanum which are similar in characters of cross section.

方法利用形态组织学方法,对茎多肉质的束花石斛Dendrobium chrysanthum及其易混的玫瑰石斛D.crepidatum、报春石斛D.primulinum、重唇石斛D.hercoglossum、晶帽石斛D.crystallium;茎粗硬的流苏石斛D.fimbriatum及其易混的叠鞘石斛D.aurantiacumvar.denneanum;茎节或节间肿胀的棒节石斛D.findlayanum、杯鞘石斛D.gratiosissimum、肿节石斛D.pendulum和大苞鞘石斛D.wardianum共11种药用石斛根进行显微结构研究;对根横切面结构相似的流苏石斛和叠鞘石斛,配合进行了根被表面制片观察。

The large stem and loop structure can be constructed from the sequence surrounding the 5' and 3' ends of the 16S rRNA gene.The stem is about h alf shorter than that of tobacco,due to a 79 bp deletion in Brassica napus chlor oplast.

5%、96.1%。油菜叶绿体16SrRNA基因5'端上游及3'端下游的顺序能互补而形成一个较大的茎环结构,但与烟草相比,由于3'端下游顺序有79bp的缺失,因此,该结构中的茎部分大小仅为烟草的二分之一。

A hydroponical experiment was carried out to study the toxicity of copper, cadmium and their combined pollution on ultrastructure of Commelina bengalensis Linn. Transmission Electron Microscope was used to investigate the effect of heavy metal on ultrastructure of different parts of plants.

为了解铜、镉对泡泡草根、茎、叶细胞亚显微结构的毒害及作用位点,以期为进一步研究鸭跖草属植物的耐重金属机理提供理论基础,本文通过透射电子显微技术研究了75 μmol·L-1铜和50μml·L-1镉及其交互污染对泡泡草根、茎、叶细胞超微结构的影响和铜、镉在细胞中的分布。

Herbacium were isobilateral leaves, and those of G. hirsutum and C. barbadense were dorsiventral leaves. The reciprocal F〓 of cross G. arboreum×G. herbacium were also isobilateral leaves, while reciprocal F〓 cross of G. hirsutum×G. barbadense were also dorsiventral leaves. The quadrispecific hybrids F〓 were isobilateral leaves, regardless of their cytoplasms. The structures of the leaf stalks and the stems were analogous to each other among the four cultivated cotton species except their diameters varied with species.

四个栽培棉种及其种间杂种F〓的形态学和细胞遗传学观察四个栽培棉种的植株、叶片、茎杆以及花器等器官都有明显的差异;叶片、茎杆以及叶柄的横切面结构观察结果表明,两个二倍体栽培棉种的叶片横切面构造为等面叶,两个四倍体栽培棉种却均为背腹叶;F〓正反交的叶片也为等面叶,F〓正反交F〓仍为背腹叶,而它们的四元杂交种均为等面叶;四个栽培棉种的叶柄和茎的横切面结构基本一致,只是直径形状和和维管束多少的不同,四元杂种的叶柄和茎的横切面结构的差异不明显。

These were raised underinducing condition to test if any morphology and structure changes. Twenty two Arabidopsismutants had various changes in morphology and anatomical structures. Twenty mutants hadlow germination rate from 10% to 60%, of which 2 had survival rates at 0% and 50%. Fivemutants occurred structure changes in the hypocotyls or stem. One of these lines, namedarris-stem, showed some unique changes: slower growth rate in comparison with the wildtype from germination to florescence; serrated margin of leaf blades, spiral rosette; morebranch in the bottom part of the stem, shorter nodes, twisted stem and branch. There were oneor several arrises along the stem. Across sections of the arrises showed one or several compactcells lumps which were round, made up of several layers of cells, looked like vascular-bundle.

在诱导条件下,这些突变体表现出不同的形态和结构的变化,共有22个表型和结构发生变化。20个突变系发芽率或存活率较低,发芽率由10%—60%,其中2个突变系存活率分别为0%和50%。5个突变系在茎或下胚轴的结构上发生变化,其中一个突变系arris-stem发生如下表型变化:从真叶出现至开花结实的整个生长期,生长速度要明显比野生型拟南芥缓慢;叶缘有明显锯齿,莲座叶呈螺旋状排列;茎的基部有较多侧枝,侧枝间距明显缩短,茎有明显扭曲;突变体茎侧面有1至数条棱形突起,内部存在一至数个排列紧密的细胞团,由多层细胞呈环形排列,细胞壁明显加厚,内部存在管状分子,推测为维管组织。

Starch sheath The innermost layer of cells of the cortex replacing the endodermis in some stems, especially young herbaceous dicotyledonous stems. Its cells contain prominent starch grains.

淀粉鞘:在部分植物的茎的皮层中,尤其是双子叶草本植物茎,代替内皮层结构的最里一层细胞,其内含有明显的淀粉颗粒。

更多网络解释与茎的结构的相关的网络解释 [注:此内容来源于网络,仅供参考]

caulome:茎的结构

caulocarpous 同茎结果的 | caulome 茎的结构 | caulomic 茎的结构的

caulome:茎的结构, 和茎结构形态相当之结构

cauloid | 假茎 | caulome | 茎的结构, 和茎结构形态相当之结构 | caulomic | 茎的结构的, 和茎结构形态相当之结构的

caus:原因

caulomic 茎的结构的 | caus. 原因 | causable 会惹起的

cloverleaf pattern:三叶草形

由于这些茎环结构的存在,使得tRNA整个分子的形状类似于三叶草形(cloverleaf pattern). 此结构称为三叶草结构. 核蛋白体RNA(ribosomal RNA,rRNA)是细胞内含量最多的RNA,约占RNA总量的80%以上. rRNA与核蛋白体蛋白(ribosomal protein)共同构成核蛋白体或称为核糖体(ribosome).

liverwort:苔

苔藓植物根据营养体的形态和结构,分为苔(liverwort)和藓(moss)两类,合称为苔藓. 苔类是苔藓植物中的原始类群,接近藻类,茎叶分化呈片或呈丝的叶状体;藓类是苔藓植物中较高等的类群,一般有根、茎、叶的分化,但根、茎、叶不具有复杂的维管束构造,

Impatiens balsamina L.:鳳仙花

获得了理想的核磁谱图,并顺利地完成了奥美拉唑分子的结构确定,还对这一化学交换过程导致NMR信号异常的原因进行了探讨.以低能N+注入凤仙花(Impatiens balsamina L)种子后获得了高茎、矮茎2个变异品系.对其进行过氧化物同工酶(POD)检测的结果表明,

caulocarpous:同茎结果的

caulocaline 成茎素 | caulocarpous 同茎结果的 | caulome 茎的结构

caulomic:茎的结构的

caulome 茎的结构 | caulomic 茎的结构的 | caus. 原因

caulomic:茎的结构的, 和茎结构形态相当之结构的

caulome | 茎的结构, 和茎结构形态相当之结构 | caulomic | 茎的结构的, 和茎结构形态相当之结构的 | caulophylline | 葳严仙碱 N-甲基野靛碱

Stewartia sinensis:紫茎

紫茎 ( Stewartia sinensis)为国家三级珍稀濒危植物[1] .古田山自然保护区的柏树坑分布着大面积的以紫茎为共优种的紫茎群落 ,其面积之大、分布之集中 ,在全国都十分罕见 .如何有效地保护这一珍稀群落 ,具有十分重要的意义 .本文主要研究了紫茎林的种类组成、外貌、结构和物种