首页
外语
计算机
考研
公务员
职业资格
财经
工程
司法
医学
专升本
自考
实用职业技能
登录
外语
Ever since Gregor Mendel’ s famous experiments with hybrid sweet peas, it has been known that there must be unitary elements wit
Ever since Gregor Mendel’ s famous experiments with hybrid sweet peas, it has been known that there must be unitary elements wit
admin
2010-01-07
33
问题
Ever since Gregor Mendel’ s famous experiments with hybrid sweet peas, it has been known that there must be unitary elements within the cells which exert control over inherited characteristics, and for a long time there was considerable speculation about what these were. These elements came to be known as genes, and although they were long treated as hypothetical constructs, a great deal of knowledge about them slowly accumulated. It came to be known, for example, that each gene had to be passed along virtually unchanged from generation to generation; that there must be many thousands of these particles in every human cell, distributed unevenly among the twenty-three pairs of chromosomes; that each gene must occupy a very definite place (locus) on its chromosome; and that each pair of homologous chromosomes had to contain homologous assortments of genes, arranged with few exceptions in precisely the same order on each member of the chromosome pail’ s. A wonderfully complex and fruitful system thus emerged about an aspect of the world which no one has ever directly observed. Let us now briefly turn to some of the newly acquired insights which have greatly expanded the already impressive theory of genetics.
Genes are, of course, too small to be seen even by the most powerful electron microscopes, but recent research by geneticists, microbiologists, and biochemists has rapidly advanced our information about their constitution and action. The chemical substance of which the genes and thus the chromosomes are made, is now known to be deoxyribonucleic acid (DNA), a giant molecule containing a double-spiral strand of material which embodies the genetic code. The chromosomes consist of long strands of DNA, which, although it is capable of transmitting vastly complex "code messages", is comprised of combinations of only four primary chemical subunits, or "code letters". This great insight into the structure and functioning of genetic material, which was first proposed by James D. Watson and Francis H. C. Crick in 1953, involves a new description of what genes are like. A gene is simply a specific portion of the double-spiral strand of DNA which consists of a particular combination of the code letters that spell out a particular code word.
Various combinations of the four code letters, forming different code words, provide the biochemical information used in the construction of the different proteins in the cell. Many of these proteins act as enzymes. The enzymes, as has been pointed out above, are the biological catalysts which direct all the chemical or metabolic reactions that are going on continuously in all cells. These metabolic functions are, of course, the basis of all the physical growth and development of any living organism.
The code is embodied in the DNA of the chromosomes and genes, but exactly how does this code deter mine the production of proteins. Obviously, the code must be transmitted to the sites at which the actual work of protein synthesis is carried out. The material which accomplishes this task is ribonucleic acid (RNA, a substance very similar to DNA and complementary to it. From the code site on the linear DNA molecule, which is the gene), RNA, the messenger, carries the code to the cellular particles out into the cytoplasm of the cell, where proteins are manufactured. This messenger RNA provides the pattern, and another type of RNA, transfer RNA, collects from within the cytoplasm the raw materials, the amino acids, from which the proteins are made. With the pattern and the materials, the proteins are formed, one step at a time. These proteins act as enzymes or biological catalysis. They exist in all living organisms and control their growth and function through the control of the chemical transformations involved in metabolism. A very large number of enzymes are present in any living creature, and the absence or malformation of any enzyme can destroy the normal sequence of metabolism of a given biochemical substance.
We can thus see that genetic activity takes the form of biochemical regulation, the genes determining the formation of enzymes. In this sense, all genetic disorders are primarily metabolic defects (Garrod, 1908). A defective or changed gene will in turn produce a change in the protein with which it is associated. The only result of such a change may be a slight alteration in the function of the protein, and there may thus be little or no observable effect. If the change or defect takes place within the code message for an essential element of the protein, however, the enzyme activity of this protein may be rendered completely inactive. If this happens, the result can be grave trouble: perhaps death, serious disease, or severe mental retardation due to poisoning of the central nervous system by a metabolite that is toxic to this system. The error in enzyme synthesis may begin to be important, so that the structure of the central nervous system is faulty almost from the beginning of embryonic life, or it may become important much later in the life cycle.
It is quite likely that, in the foreseeable future, many essential biochemical processes will be understood in terms of the precise genetic codes responsible for them. All of the amino acids have already yielded to such analysis; their codes have been identified. With understanding may come control and prevention, such as may be possible by administration of the lacking enzymes, dietary control of substances which the individual is unable to metabolize, or transplantation of normal tissue to the diseased individual to correct the metabolic error.
Genes determine through complex biochemical processes the structure and rate in which ______ .
见文章第一段中间。
选项
A、proteins are formed
B、chromosomes are paired
C、enzymes are produced
D、cells multiply
答案
解析
B
转载请注明原文地址:https://kaotiyun.com/show/bSPd777K
本试题收录于:
公共英语四级笔试题库公共英语(PETS)分类
0
公共英语四级笔试
公共英语(PETS)
相关试题推荐
Whatnaturalresourcesdidthesouthernparthave?
Oursocialdevelopmentwasencouragedthroughteamwork.Weworkedingroupswithpeoplewe’dnevermet【1】.Welearnttolistent
Largecompaniesneedawaytoreachthesavingsofthepublicatlarge.Thesameproblem,onasmallerscale,facespractically
Vicky—beautiful,talented,verybright,voted"MostLikelytoSucceed"incollege—gotapromisingjobwithalargecompanya
AlthoughsocialchangesintheUnitedStateswerebeingwroughtthroughoutmostofthenineteenthcentury,publicawarenessoft
Humanrelationshavecommandedpeople’sattentionfromearlytimes.Thewaysofpeoplehavebeenrecordedininnumerablemyths,
ToproducetheupheavalintheUnitedStatesthatchangedandmodernizedthedomainofhighereducationfromthemid-1860’sto
IfyouarebuyingapropertyinFrance,whetherforapermanentoraholidayhome,itisimportanttoopenaFrenchbankaccount
Atthedawnofthe20thcentury,suburbiawasadreaminspiredbyrevulsiontothepovertyandcrowdingofthecities.Inthevi
Theexpression"stepbackintimeatleastahundredyears"(Para.2)isintendedtoconveytheideathatThegreatestadvantag
随机试题
利用有关数学工具,为组织寻得一个数量解,着重于定量研究的学派是()。
会阴指阴道与肛门间的软组织,包括皮肤、肌肉及筋膜。()
考取执业药师资格证后,依照《执业药师资格制度暂行规定》,申请执业药师注册必备条件包括
在隧道防排水施工中,能够为衬砌与围岩之间提供过水通道的设施是()。
下列关于营运资本投资的说法,错误的是()。
将当前工作表记录,按姓名笔划升序排列。
以下正确的字符串常量是
下列叙述中正确的是
Whatisspecialaboutthetreasures?Whatdidtheformerpresidentdotoprotectthetreasures?
A、Nepal.B、Himalaya.C、Bhutan.D、NewZealand.C信息题。录音中提到“In2004,Bhutanbannedtobaccoaltogether.”。只要注意年份并不难听出答案。
最新回复
(
0
)