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吸收过多
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  “吸收过多”译为未确定词的双语例句
     With the trans-thylakoid pH gradient,zeaxanthin (Z) together with antheraxanthin (A) can absorb excess energy from chlorophyll and release it as heat,thus protect the photosynthetic apparatus from photodamage by high light.
     目前普遍认为叶黄素循环的色素定位于天线色素蛋白复合体上,在跨膜质子梯度(△pH)形成后,玉米黄质(Z)和环氧玉米黄质(A)能够从叶绿素中吸收过多的激发能,并以热能的形式耗散到体外,从而保护光合器官免受强光的破坏。
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     We also detected a significant increase of NPQ in the stressed leaves of both cultivars, which indicated that the mechanism of thermal dissipation had been started to dissipate excess light energy, and protect the plants from photo-inhibition and photo-oxidation.
     缺钾叶片NPQ显著上升,说明钾胁迫下的水稻叶片通过启动热耗散机制耗散过剩的激发能,以减轻因PSⅡ吸收过多光能而引起的光抑制和光氧化从而保护光合机构免受伤害。
短句来源
     The colon contraction frequency and amplitude without propelling movement increases,the transit time prolonged,wate r in the bowel content is excessively absorbed,which produces a hard stool;
     结肠非推进性收缩幅度、频率增加 ,肠传输时间延长 ,肠内容物水分吸收过多 ,粪便干燥 ;
短句来源
     Under salt stress,plant take up excessive Na~+ so as make the ion equilibrium inside their bodies lose balance,and in order to maintain their growth,they need maintain this equilibrium; This process is performed by ion transporters on plasmlemma and vacuole membrane and plays a crucial role in plant salt tolerance.
     盐胁迫下植物吸收过多的N a+,使植物体内的离子平衡受到破坏,为了维持其正常生长细胞内的各种离子就必须保持平衡,而这一过程主要是由位于质膜和液泡膜上的离子转运蛋白完成的,并在植物耐盐性方面起关键作用。
短句来源
     In that conditions,the light energy absorbed by PSⅡ was in excess of the need for assimilation,and a significant increase of NPQ in the stressed leaves of both varieties was detected,which indicated that the mechanism of thermal dissipation had been started to dissipate excessive light energy,and protected the plants from photoinhibition and photo-oxidation.
     缺钾叶片NPQ显著上升,说明钾胁迫下的水稻叶片通过启动热耗散机制耗散过剩的激发能,以减轻因PSⅡ吸收过多光能而引起的光抑制和光氧化从而保护光合机构免受伤害。
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  相似匹配句对
     K uptake by spring maize is significantly improved by potassium fertilizer and established the dynamic model of N.
     K的吸收。 建立了N.
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     c)The efficiency of absorbing.
     c)吸收效率;
短句来源
     (2)The employment problem.
     (2)渔民过多
短句来源
     and repetitive researches abound.
     重复研究过多
短句来源
     Secondly,after more subculture, the protocorm derived from Cymbidium grandiflorium absorbed overabundance cytokinin 6-BA (6-benzyladenine),which aroused hormone proportion inbalanc in plant body and generated vitrification.
     二是经过多次继代培养,原球茎过多吸收细胞分裂素6-BA,使体内激素比例严重失调,导致玻璃化;
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  hyperabsorption
Hyperabsorption of oxalate seems to be the main pathogenetic factor for "enteric" hyperoxalaria.
      
Our results indicate that increased calcium release from bone or intestinal hyperabsorption of calcium are responsible for the disturbed calcium metabolism in sarcoidosis.
      
Hyperabsorption of chloride in the distal nephron leads to pseudohypoaldosteronism type II, which is linked with hypertension, whereas blood pressure in the other mentioned disorders is decreased.
      
It is reasonable to suggest that, in this group, because parathyroid function is usually suppressed by intestinal hyperabsorption of calcium, parathyroid function may not be further suppressed by even calcium load.
      
A lack of oxalate degradation caused by the absence of this bacterium is suggested to contribute to the hyperabsorption of dietary oxalate and to the increase in urinary oxalate excretion.
      
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Using a HPLG and a portable ADC photosynthetic gas analysis system, we observed the seasonal and diurnal changes of photorespiration (Pr) and xanthophyll (L) cycle in ginger leaves under field conditions so as to understand the role of L and Pr in defending leaves against photoinhibitory damage. The results were as follows: the seasonal and diurnal changes of Pr and L of ginger leaves were marked, Pr in 14, August was higher than that in 29, September. Pr showed a diurnal change in response to PFD, and its...

Using a HPLG and a portable ADC photosynthetic gas analysis system, we observed the seasonal and diurnal changes of photorespiration (Pr) and xanthophyll (L) cycle in ginger leaves under field conditions so as to understand the role of L and Pr in defending leaves against photoinhibitory damage. The results were as follows: the seasonal and diurnal changes of Pr and L of ginger leaves were marked, Pr in 14, August was higher than that in 29, September. Pr showed a diurnal change in response to PFD, and its peak was around 10:00~12:00. Pr declined with increasing shade extent. The L cycle showed a diurnal variation in response to PFD, xanthophyll cycle pool (A+Z+V) and its key component (A+Z) increased during mid day period, and its peak was around 12:00. The content of A+Z and the size of xanthophyll cycle pool in different months showed a trend of 14/8>29/9>1/7.The content of A+Z+V and A+Z reduced as increase of shade.The above results illustrated that Pr and xanthophyll cycle had a positive role in dissipating excessive light energy and in protecting photosynthetic apparatus of ginger leaves from mid day high light stress.

田间生姜的光呼吸速率(Pr) 随光强的增加而升高,随季节和生长期的进展而降低,其日变化进程基本与PFD 同步,峰值一般出现在10 :00 ~12:00 ;遮荫可明显降低Pr。用Pr 抑制剂抑制Pr 后光抑制加重,光化学效率和光合速率降低。叶黄素循环的关键组分—玉米黄质(Z) 及叶黄素循环库(A+ Z+ V) 的含量随光强的增加而增加,也随季节而变化,其含量是14/8 > 29/9 > 1/7,日变化与PFD 的日变化相呼应,峰值一般出现在12:00 前后;遮荫可明显降低中午前后的A+ Z+ V 及A+ Z的含量,说明Pr 和叶黄素循环的关键组分在午间强光下升高,可排散叶片吸收的过多能量,防御光抑制对叶片光合机构的破坏

Chronic constipation may be a result of varied p athophysiological action.Abnormalities associated with chronic constipation are as follows:(1)The colonic motility disorders.The colon contraction frequency and amplitude without propelling movement increases,the transit time prolonged,wate r in the bowel content is excessively absorbed,which produces a hard stool;The c olon contraction frequency and amplitude with propelling movement decreases,the transit time prolonged,the feces cannot be pushed to the rectum;The...

Chronic constipation may be a result of varied p athophysiological action.Abnormalities associated with chronic constipation are as follows:(1)The colonic motility disorders.The colon contraction frequency and amplitude without propelling movement increases,the transit time prolonged,wate r in the bowel content is excessively absorbed,which produces a hard stool;The c olon contraction frequency and amplitude with propelling movement decreases,the transit time prolonged,the feces cannot be pushed to the rectum;The local dishar mony contraction and reverse peristalsis of the colon make dyssynergic defecatio n.(2)The rectal motility disorders.The rectum tension and sensitivity reduce,and compliance increases.(3)Dysfunction of the anal sphincter.(4)Abnormal contracti on of muscle groups in the pelvic floor such as declined or persistent contracti on,disharmony contraction and relaxation.The article reviewed the physiology of defecation and pathophysiology of constipation.

慢性便秘可以看作是不同病理生理过程的最终症状表现 ,其胃肠运动主要出现以下病理生理变化 :( 1)结肠运动功能异常 :表现为运动亢进、减弱、不协调。结肠非推进性收缩幅度、频率增加 ,肠传输时间延长 ,肠内容物水分吸收过多 ,粪便干燥 ;结肠推进性收缩的幅度频率减少、结肠蠕动无力 ,肠传输时间增加 ,粪便无法正常推送至直肠 ;不协调运动 ,结肠某一部分收缩增强、逆向蠕动 ,影响传输时间 ;( 2 )直肠运动异常 :直肠张力下降 ,顺应性增加 ,感觉功能下降 ;( 3 )肛门括约肌功能异常 ;( 4 )盆底肌群收缩功能下降 ,持续收缩、不协调收缩或松弛。本文对排便的生理和便秘的病理生理进行综述

Under salt stress,plant take up excessive Na~+ so as make the ion equilibrium inside their bodies lose balance,and in order to maintain their growth,they need maintain this equilibrium;This process is performed by ion transporters on plasmlemma and vacuole membrane and plays a crucial role in plant salt tolerance.The paper summarized the research advances in plant salt tolerance biology about several membrane-spanned ion transporters,such as K~+/Na~+ transporters and Na~+/H~+ anti-porters and their related H~+-ATPase,which...

Under salt stress,plant take up excessive Na~+ so as make the ion equilibrium inside their bodies lose balance,and in order to maintain their growth,they need maintain this equilibrium;This process is performed by ion transporters on plasmlemma and vacuole membrane and plays a crucial role in plant salt tolerance.The paper summarized the research advances in plant salt tolerance biology about several membrane-spanned ion transporters,such as K~+/Na~+ transporters and Na~+/H~+ anti-porters and their related H~+-ATPase,which respond to salt stress.

盐胁迫下植物吸收过多的N a+,使植物体内的离子平衡受到破坏,为了维持其正常生长细胞内的各种离子就必须保持平衡,而这一过程主要是由位于质膜和液泡膜上的离子转运蛋白完成的,并在植物耐盐性方面起关键作用。本文主要对响应盐胁迫的几种跨膜转运蛋白如:K+/N a+离子转运蛋白、N a+/H+逆向转运蛋白以及与其相关的H+-ATPase等,在植物耐盐分子生物学方面的研究进展进行综述。

 
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