中国组织工程研究与临床康复
中國組織工程研究與臨床康複
중국조직공정연구여림상강복
JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH
2009年
28期
5580-5584
,共5页
黄碧燕%柯杰兵%张翔%傅忠义%姜立%孙毅%王王
黃碧燕%柯傑兵%張翔%傅忠義%薑立%孫毅%王王
황벽연%가걸병%장상%부충의%강립%손의%왕왕
BRB阵列工具%KEGG搜索%基因表达%数据挖掘%有氧运动
BRB陣列工具%KEGG搜索%基因錶達%數據挖掘%有氧運動
BRB진렬공구%KEGG수색%기인표체%수거알굴%유양운동
目的:观察有氧运动对骨骼肌全基因组表达的影响.方法:选择6名某部队干休所中很少运动、年龄(66±9)岁的健康老年人集进行为期12周太极拳训练.运动前和运动12周后,所有受试都进行了体质评估.测试指标包括身高、体质量、肺活量、台阶指数、最大摄氧量.在训练前后分别对实验对象进行肌活验,提取总RNA,经处理后与Affymetdx U133A基因芯片进行杂交,分析数据.结果:有氧运动可明显改善老年人心肺功能,同时有一定降低体脂(减肥)功效.有氧运动使老年人骨骼肌全基因组表达发生明显改变,筛选出725条表达有差异的基因.本文对表达差异最显著的20条差异表达基因进行研究(3条基因表达上调,17条基因表达下调).根据基因功能分类对比,差异表达基因分别归属8种细胞组分和生物过程,经KEGG搜索找到4条基因的代谢途径.结论:有氧运动可使三羧酸循环相关酶基因表达上调,肌肉蛋白合成相关基因和神经鞘脂类相关基因表达下调,提示有氧运动有助于保护神经细胞的完整性,对抗衰老有积极作用,同时可加速体内脂类物质有氧代谢.
目的:觀察有氧運動對骨骼肌全基因組錶達的影響.方法:選擇6名某部隊榦休所中很少運動、年齡(66±9)歲的健康老年人集進行為期12週太極拳訓練.運動前和運動12週後,所有受試都進行瞭體質評估.測試指標包括身高、體質量、肺活量、檯階指數、最大攝氧量.在訓練前後分彆對實驗對象進行肌活驗,提取總RNA,經處理後與Affymetdx U133A基因芯片進行雜交,分析數據.結果:有氧運動可明顯改善老年人心肺功能,同時有一定降低體脂(減肥)功效.有氧運動使老年人骨骼肌全基因組錶達髮生明顯改變,篩選齣725條錶達有差異的基因.本文對錶達差異最顯著的20條差異錶達基因進行研究(3條基因錶達上調,17條基因錶達下調).根據基因功能分類對比,差異錶達基因分彆歸屬8種細胞組分和生物過程,經KEGG搜索找到4條基因的代謝途徑.結論:有氧運動可使三羧痠循環相關酶基因錶達上調,肌肉蛋白閤成相關基因和神經鞘脂類相關基因錶達下調,提示有氧運動有助于保護神經細胞的完整性,對抗衰老有積極作用,同時可加速體內脂類物質有氧代謝.
목적:관찰유양운동대골격기전기인조표체적영향.방법:선택6명모부대간휴소중흔소운동、년령(66±9)세적건강노년인집진행위기12주태겁권훈련.운동전화운동12주후,소유수시도진행료체질평고.측시지표포괄신고、체질량、폐활량、태계지수、최대섭양량.재훈련전후분별대실험대상진행기활험,제취총RNA,경처리후여Affymetdx U133A기인심편진행잡교,분석수거.결과:유양운동가명현개선노년인심폐공능,동시유일정강저체지(감비)공효.유양운동사노년인골격기전기인조표체발생명현개변,사선출725조표체유차이적기인.본문대표체차이최현저적20조차이표체기인진행연구(3조기인표체상조,17조기인표체하조).근거기인공능분류대비,차이표체기인분별귀속8충세포조분화생물과정,경KEGG수색조도4조기인적대사도경.결론:유양운동가사삼최산순배상관매기인표체상조,기육단백합성상관기인화신경초지류상관기인표체하조,제시유양운동유조우보호신경세포적완정성,대항쇠로유적겁작용,동시가가속체내지류물질유양대사.
OBJECTIVE: To evaluate the effect of aerobic exercise on genome expression in human skeletal muscle. METHODS: Six healthy sedentary elderly men aged (66+9) years were selected from military cadre retirement centers and after exercise. Testing indices included height, weight, vital capacity, step index and maximal oxygen uptake. Needle biopsies were obtained from the skeletal muscle before and after the last training. Total RNA extracted from the samples was hybridized to Affymetrix U 133A platform, the gene expression datum was analyzed.RESULTS: Aerobic exercise was shown to improve cardiorespiratory function and reduce body fat of elder subjects. It could alter the genome expression in human skeletal muscle, the number of genes that passed filtering criteria was 725. The most differently expressed genes (n=20) were investigated in this study, in which there were 3 upregulated and 17 downregulated. According to gene function annotations, the differential genes were classified into 8 categories which concerned cellular component and biological process, Kyoto Encyclopedia of Genes and Genomes (KEGG) searching showed 4 genes' metabolism pathway. CONCLUSION: Systematic aerobic exercise upregulates expression of enzyme genes concerning tricarboxylic acid cycle, and downregulates expression of genes conceming muscle protein synthesis and sphingolipid. It is suggested that aerobic exercise is good to protect human nerves' integrity, exerts positive action on anti-aging and accelerate the aerobic metabolism of lipid materials in vivo.
