基;
;In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在光
作用中,铁硫蛋白与光系统Ⅰ和最终电子受体NADP间
电子传递有
。
acceptor
/ək'septə/ /ək'sɛptɚ/
n. 接受者,接收器
electron acceptor 电子受体;电子接收体
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要转酮醇酶是磷酸戊糖途径
酶,催化二碳单元在酮糖(供体)和醛糖(受体)间转移。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样方法测量530nm绿峰发光衰变规律显示绿光主要源于导带至OZn反位缺陷深受主能级跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件
观点;若发现问题,欢迎向我们指正。
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acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
n. 接受者,接收器
词electron acceptor 电子受体;电子接收体
In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在光作用中,铁硫蛋白与光系统Ⅰ和最终电子受体NADP间电子传递有关。
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要转酮醇酶是磷酸戊糖途径关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间转移。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样方法测量530nm绿
光衰变规律显示绿光主要源于导带至OZn
位缺陷深受主能级跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件观点;若
现问题,欢迎向我们指正。
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相似单词
acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
n. 接受
,接收器
,接收器
;
electron acceptor 电子受
;电子接收
;电子接收In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在光作用中,铁硫蛋白与光系统Ⅰ和最终电子受NADP间的电子传递有关。
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要转酮醇酶是磷酸戊糖途径的关键酶,催化二
在酮糖(
)和醛糖(受)间的转移。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样方法测量的530nm绿峰的发光衰变规律显示绿光主要源于导带至OZn反位缺陷深受主能级的跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
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相似单词
acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
n. 接受者,接收器
electron acceptor 电子受体;电子接收体
In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在
作用中,铁硫蛋白与系统Ⅰ和最终电子受体NADP间电子传递有关。
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要转酮醇酶是磷酸戊糖途径关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间转移。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样方法测量530nm绿峰衰变规律显示绿主要源于导带至OZn位缺陷深受主能级跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件观点;若现问题,欢迎向我们指正。
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相似单词
acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
n. 接受者,接收器
electron acceptor 电子受体;电子接收体
In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在光作用中,铁硫
光系
Ⅰ
终电子受体NADP间的电子传递有关。
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要转酮醇酶是磷酸戊糖途径的关键酶,催化二碳单元在酮糖(供体)醛糖(受体)间的转移。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样方法测量的530nm绿峰的发光衰变规律显示绿光主要源于导带至OZn反位缺陷深受主能级的跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
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acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
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acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
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acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
n. 接受者,接收器
;
,基electron acceptor 电子受;电子接收
;电子接收In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在光作用中,铁硫蛋白与光系统Ⅰ最终电子受NADP间的电子传递有关。
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要转酮醇
是磷酸戊糖途径的关键,催化二碳单元在酮糖()醛糖(受)间的转移。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样方法测量的530nm绿峰的发光衰变规律显示绿光主要源于导带至OZn反位缺陷深受主能级的跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
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acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
n. 
受者,
受者,electron acceptor 电子受体;电子
体
体In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在光作用中,铁硫蛋白与光系统Ⅰ和最终电子受体NADP间的电子传递有关。
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要转酮醇酶是磷酸戊糖途径的关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间的转移。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样方法测量的530nm绿峰的发光
律显示绿光主要源于导带至OZn反位缺陷深受主能级的跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
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相似单词
acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
n. 接受者,接收器
;electron acceptor 
受体;接收体
受体;接收体In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在光作用中,铁硫蛋白与光系统Ⅰ和最终受体NADP间传递有关。
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要
酮醇酶是磷酸戊糖途径关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间
。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样方法测量530nm绿峰发光衰变规律显示绿光主要源于导带至OZn反位缺陷深受主能级跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件观点;若发现问题,欢迎向我们指正。
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相似单词
acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,
n. 接受者,接收器
electron acceptor 电子受体;电子接收体
In photosynthesis ferredoxin is involved in electron transfer between photosystem I and the final electron acceptor, NADP.
在光作用中,铁硫蛋白与光系统Ⅰ和最终电子受体NADP间的电子传递有关。
Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance).
摘要转酮醇酶是磷酸戊糖途径的关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间的转移。
The results also show that green band emission is due to transition from conduction band to deep acceptor level which result in antiposition defect of OZn.
同样
法
量的530nm绿峰的发光衰变规律显示绿光主要源于导带至OZn反位缺陷深受主能级的跃迁。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
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acceptee, accepter, acceptilation, accepting, acceptive, acceptor, acceretion, access, access code, access road,