2015年中山医考博生化真题

1.Central DogmaIt shows the general pathways of information flow via replication,transcription, and translation.The central dogma comprises the three majorprocesses in the cellular utilization of genetic information.The first is replication, the copying of parental DNA to form daughter DNAmolecules with identical nucleotide sequences.The second is transcription, the process by which parts of the geneticmessage encoded in DNA are copied precisely into RNA.The third is translation, whereby the genetic message encoded in messenger RNA is translated on the ribosomes into a polypeptide with a particular sequence of amino acids.Extension of the central dogma to include RNA-dependent synthesis of RNA and DNA.parison of enzymes involved in DNA RNA and Protein synthesisSimilarity: all of 3 have the polymerization activity of 5’-3’ deoxynucleotide chain elongation and 3’-5’ nucleic acid excision enzyme activity.Differene:基因突变后的致死性可能不可能（推测其参与DNA损伤后的SOS修复）可能DNA polymerase I account for more than 90% of total polymerase activity in E. coli cell, but it’s not the principal replication enzyme. It perform a host of clean-up functions during replication, recombination, and repair.只能催化延长20 nucleotides.DNA polymerase II is an enzyme involved in one type of DNA repair. SOS repair.DNA polymerase III is the principal replication enzyme in E. coli . 10 subunits3.How does synthesis differ on leading strand and lagging strand?●Leading strand synthesis, the more straightforward of the two, begins with the primer at the replication origin. Deoxyribonucleotides are added to this primer by DNA polymerase III . Leading strand synthesis then proceeds continuously, keeping pace with the unwinding of DNA at the replication fork.●Lagging strand synthesis is accomplished in short Okazaki fragments . The synthesis of each Okazaki fragment seems straightforward, but the reality is quite complex.When synthesis of an Okazaki fragment has been completed, replication halts , and the core subunits of DNA polymerase III dissociate from their sliding clamp (from the completed Okazaki fragment) and associate with the new clamp.pare the DNA replication in eukaryotes with that in prokaryotesa.Differences(Initiation)1) Chromosomes are linear with multiple origins of replication2) Replication fork moves more slowly →Okazaki fragments of 100-200 nucleotides; primer = 10 nucleotides3) Eukaryotes have at least 5 DNA polymerases:α, δ, ε(DNA replication); β(DNA repair); γ(DNA replication in mitochondria) (Elongation)4) Replicon eukaryotic chromosomes contain multiple origins, at which DNA denatures and replication then proceeds bidirectionally until an adjacent replication fork is encountered. The DNA replicated from a single origin is called a replicon, or replication unit. Many replicons.(Termination)5)TelomeraseDNA polymerase I and DNA ligase cannot fill gap at end of chromosome after RNA primer is removed. Telomerase/DNA polymeraseIII/I /DNA ligase6)Assembling New DNA into Nucleosomes5.Why are single-stranded binding (SSB) proteins required?SSB-It binds to single-stranded DNA, preventing the unwinding DNA from reannealing with the complementary strand.DNA gyase- break both strands and passing a double strand region through the break before resealing the break — require ATP. Relieve the torsional strain generated by DNA unwinding.6.What is a replication fork?The site of DNA synthesis is called the replication fork because the complex formed by the newly synthesized daughter strands arising from the parental duplex resembles a two-pronged fork.7.The difference between primase and polymerase?8.The difference between a template and a primer?9.Which is continuous and semi-discontinuous?10.Pleas briefly describe the roles of major enzymes involved in DNA replication.a.Initiation●DNA polymerase III is the principal replication enzyme in E. coli .●SSBSingle-strand binding protein is tetramer of identical subunits. It binds to single-stranded DNA, preventing the unwinding DNA from reannealing with the complementary strand.●Topoisomerases DNA gyaseenzymes that catalyze changes in DNA supercoiling.Type I:break a phosphodiester linkage of one strand, passing the other strand through the break and resealing the break--they can only remove supercoils, don’t need A TPType II: break both strands and passing a double strand region through the break before resealing the break — require A TP●DNA Helicase- DnaB proteinFunction: Access to the DNA strands that are to act as templates requires separation of the two parent strands. This is generally accomplished by helicases. Process: enzymes that move along the DNA and separate the strands, using chemical energy from ATP.●PrimasePrimase is an RNA polymerase that generates an oligoribonucleotide, primer, that has a free 3´-OH and is complementary to template and is extended by DNA polymerase III.b.Elongation Nonec. Termination●DNA polymerase I.At the end of replication, the gaps between fragments of the lagging strand are then filled by DNA polymerase I . This essential enzyme uses its 5’-3’exonuclease activity to remove the RNA primer lying ahead of the polymerase site.●DNA ligaseDNA ligase seals the nicks between newly synthesized Okazaki fragments, joining them to each other in a single, continuous strand.11.primosome primase and primer●Even with the DNA template exposed, new DNA cannot be synthesized until a primer is constructed.● A specialized RNA polymerase called primase(in E.coli is DnaG) joins the prepriming complex in a multisubunit assembly called the primosome.含有解螺旋酶、DnaC蛋白、引物酶和DNA复制起始区域的复合结构称为引发体。

一、单选1×50
上下尖牙区别
monson球面的半径
下颌神经前支中的感觉神经
前牙切割运动的杠杆运动形式
单囊性成釉细胞瘤处理方式
腺淋巴瘤病理特点
舌下腺结构
放射性骨髓炎病理表现
翼下颌间隙内容
下颌运动特点
下颌体骨化中心
颞下颌关节手术时切口方式
牙受垂直向力时牙龈主纤维中不受力的是
（以后想起来再补充）
二、名解2×10
近唇线角
pterygoid process
Terra dentition index
mento-cervical angle
taste threshold
alveolar bone proper
candidiasis
chronic gingivitis
branchial cleft cyst
lymphoepithelial carcinoma
三、简答5×6
解剖
1.根管系统在根部侧面开口的系统名称，并从解剖角度解释牙周病和牙髓病的相互影响。

2.口颌系统肌链的组成与功能？
3.临床上面神经的解剖方法，面神经主干的解剖标志点？
病理
1.口腔黏膜鳞癌有很多亚型，请举3例口腔黏膜鳞癌亚型，并叙述其镜下特点及生物学行为？
2.根据牙骨质组织结构学特性，叙述牙骨质龋特点？
3.肌上皮细胞来源的唾液腺良恶性肿瘤各举两例，及其镜下鉴别要点。

中山大学中山医学院历年生物化学考博试题中山大学1998年生物化学考博试题一、名词解释1、纤维蛋白酶原2、基因转化二、问答1、DNA核酸内切酶作用位点2、RNA聚合酶真核与原核的区别3、举例说明蛋白水平酶的作用4、cAMP的转录调控5、Hb与Mb的不同6、真核生物mRNA的修饰与剪切7、脂肪酸的分解过程为何称β－氧化中山医科大学博士入学考试试题生物化学2004年一、名词解释（10*3）1.分子伴侣、2.随从链、3.尿素循环、4.基因诊断、5.基因重组、6.底物水平磷酸化、7.一碳单位、8.生物转化、9.KLENOW 片段、10.邻近效应二、简答题（8*5）1、a－螺旋的特点2、DNA双螺旋的类型及结构特点3、遗传密码的特点4、红细胞糖代谢的特点5、mRNA的加工修饰包括哪些内容6、真核基因组的结构特点7、如果一酶与底物作用的反应曲线成“S”型，解释其原因8、NADPH参加反应的类型三、论述题（3*10）1、人类基因组计划已经完成，今后分子生物学的工作重点应该是什么？2、为什么在缺氧的条件下，糖酵解反应能够持续进行？3、如果要用基因工程方法生产胰岛素，如何获得胰岛素基因？中山大学2005年生物化学考博试题一、名词解释1、分子病2、Km3、mRNA4、酮体5、分子筛层析6、氧化磷酸化7、Tm8、鸟氨酸循环9、分子杂交10、端粒酶二、简答1、谷胱甘肽结构功能2、竞争性抑制作用举例3、tRNA 结构意义4、DNA双螺旋结构遗传学意义5、NADPH代谢中作用6、VB12致巨幼红细胞贫血的原因7、DNA复制的保留遗传特点8、举例细胞膜受体介导细胞信号传导三、问答蛋白质一级结构特点功能举例TCA循环是三物质代谢枢纽，为什么/有何意义限制性内切核酸酶是基因工程手术刀。

为什么？中山大学2006年生物化学考博试题名词解释同工酶协同调节胆汁酸肠肝循环泛素限制性核酸内切酶简答：1.a-互补基因重组的原理2.功能基因组学的内容3.几种酶所催化的反应和意义：6-磷酸果糖激酶-2，磷脂胆固醇..酶，氨基...磷酸..酶，磷酸二酯酶。