a.factors affecting oxidative phosphorylation (4)Metabolism ofamino acids 1)Grasping following points: a.dietary protein:function and nutrition value b.degradation of amino acid:transamination,oxidative deamination and transdeamination. c.urea cycle:process and significance. d.function of histamine,y-aminobutyric acid and 5-hydroxytryptamine. e.one carbon unit:carrier,name and function. f.physical function of phosphate creatine,SAM and PAPS 2)Familiarizing with following points: a.catalytic characteristics of protein hydrolase in pancreatic juice. b.a-ketone acid:classification and biotransformation. 3)getting a general idea on: a.carriers involving amino acid absorption b.putrefaction and hyperammonemia. c.aromatic amino acid:conversion of tyrosine and catecholamine synthesis. conversion of tryptophan. d.degradation of branch amino acid. (5)Metabolism of nucleotide acid 1)Grasping following points: a.de novo synthesis of purine and pyrimidine nucleotide:substrates,process,key enzyme,conversion of IMP to AMP and GMP,conversion of UMP to CTP. b.synthesis of dNTPs. c.regulation of nucleotide acid synthesis. 2)Familiarizing with following points: a.salvage pathway of purine and pyrimidine nucleotide acid b.degradation of purine and pyrimidine nucleotide acid. 3)getting a general idea on: a.antimetabolite:concepts and mechanism. b.abnormal metabolism of purine nucleotide:uarthritis. (6)hemal and liver biochemistry 1)Grasping following points:a. factors affecting oxidative phosphorylation. (4) Metabolism of amino acids 1) Grasping following points: a. dietary protein: function and nutrition value. b. degradation of amino acid: transamination, oxidative deamination and transdeamination. c. urea cycle: process and significance. d. function of histamine, γ- aminobutyric acid and 5-hydroxytryptamine. e. one carbon unit: carrier, name and function. f. physical function of phosphate creatine, SAM and PAPS. 2)Familiarizing with following points: a. catalytic characteristics of protein hydrolase in pancreatic juice. b. α- ketone acid: classification and biotransformation. 3) getting a general idea on: a. carriers involving amino acid absorption. b. putrefaction and hyperammonemia. c. aromatic amino acid: conversion of tyrosine and catecholamine synthesis; conversion of tryptophan . d. degradation of branch amino acid. (5) Metabolism of nucleotide acid 1) Grasping following points: a. de novo synthesis of purine and pyrimidine nucleotide: substrates, process, key enzyme , conversion of IMP to AMP and GMP, conversion of UMP to CTP. b. synthesis of dNTPs. c. regulation of nucleotide acid synthesis. 2)Familiarizing with following points: a. salvage pathway of purine and pyrimidine nucleotide acid. b. degradation of purine and pyrimidine nucleotide acid. 3) getting a general idea on: a. antimetabolite: concepts and mechanism. b. abnormal metabolism of purine nucleotide: uarthritis. (6) hemal and liver biochemistry 1) Grasping following points: