發布於 2018-06-28
觀看次數: 161
  • 1:44:22 1.
    index 1
  • 01:21 2.
    Slide 3
  • 02:17 3.
    醣解作用重點整理
  • 00:20 4.
    醣解作用重點整理
  • 03:44 5.
    醣解作用重點整理
  • 00:01 6.
    Slide 7
  • 00:00 7.
    醣解作用重點整理
  • 00:01 8.
    F1,6BP
  • 00:00 9.
    F1,6BP
  • 00:00 10.
    F1,6BP
  • 02:42 11.
    F1,6BP
  • 00:10 12.
    F1,6BP
  • 00:11 13.
    F1,6BP
  • 00:22 14.
    F1,6BP
  • 00:46 15.
    醣解作用重點整理
  • 01:05 16.
    Slide 15
  • 00:18 17.
    pyruvate
  • 00:59 18.
    Lacate
  • 00:04 19.
    ** after 醣類代謝上-講師版國考複習 (1).pptx
  • 00:14 20.
    Alaline
  • 00:00 21.
    Alaline
  • 00:00 22.
    Lacate
  • 00:00 23.
    pyruvate
  • 00:00 24.
    Slide 15
  • 00:00 25.
    醣解作用重點整理
  • 00:00 26.
    F1,6BP
  • 00:00 27.
    F1,6BP
  • 00:00 28.
    F1,6BP
  • 00:01 29.
    F1,6BP
  • 00:00 30.
    F1,6BP
  • 00:00 31.
    醣解作用重點整理
  • 00:00 32.
    Slide 7
  • 00:16 33.
    醣解作用重點整理
  • 00:00 34.
    Slide 7
  • 00:00 35.
    醣解作用重點整理
  • 00:00 36.
    F1,6BP
  • 00:00 37.
    F1,6BP
  • 00:00 38.
    F1,6BP
  • 00:00 39.
    F1,6BP
  • 00:00 40.
    F1,6BP
  • 00:00 41.
    醣解作用重點整理
  • 00:00 42.
    Slide 15
  • 00:00 43.
    pyruvate
  • 00:00 44.
    Lacate
  • 00:10 45.
    Alaline
  • 00:10 46.
    Alaline
  • 00:10 47.
    Alaline
  • 00:33 48.
    Alaline
  • 03:01 49.
    會使用PLP的反應:(1)Transaminase(2)Glycogen phosphorylation(3)Heme的合成:ALA synthetase會使用TPP(轉移兩個C)(1)Pyr decarboxylase(2)Transketolase(PPP pathway)(3)Pyr DHnase complex a-keto glutamate Dhnase complex
  • 00:01 50.
    Alaline
  • 00:00 51.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 00:01 52.
    Alaline
  • 00:00 53.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 00:06 54.
    Alaline
  • 00:05 55.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 00:00 56.
    Alaline
  • 00:23 57.
    會使用PLP的反應:(1)Transaminase(2)Glycogen phosphorylation(3)Heme的合成:ALA synthetase會使用TPP(轉移兩個C)(1)Pyr decarboxylase(2)Transketolase(PPP pathway)(3)Pyr DHnase complex a-keto glutamate Dhnase complex
  • 00:00 58.
    Alaline
  • 00:34 59.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 00:00 60.
    Slide 25
  • 03:30 61.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 00:16 62.
    Slide 25
  • 00:06 63.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 00:33 64.
    Slide 25
  • 00:02 65.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 00:08 66.
    Slide 25
  • 00:00 67.
    TCA cycle重點整理(1)=citric acid cycle =tricarboxylic acid cycle =Kreb cycle(2)OAA+acetylCoA→Citrate(1st化合物)(3)TCA主要在Mito matrix But: (4)Amphibolic pathway 分解:醣類 蛋白質 脂肪分解→AcetylCoA→TCA 合成:涉及 a.胺基酸的合成,purine/pyrimidine合成
  • 00:00 68.
    Slide 25
  • 00:09 69.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 01:59 70.
    Slide 25
  • 00:03 71.
    Glcuose→pyr→acetyl-CoA→TCAcycle
  • 03:29 72.
    Slide 25
  • 00:07 73.
    TCA cycle重點整理(1)=citric acid cycle =tricarboxylic acid cycle =Kreb cycle(2)OAA+acetylCoA→Citrate(1st化合物)(3)TCA主要在Mito matrix But: (4)Amphibolic pathway 分解:醣類 蛋白質 脂肪分解→AcetylCoA→TCA 合成:涉及 a.胺基酸的合成,purine/pyrimidine合成
  • 00:00 74.
    TCA cycle重點整理(5) 得到3NADH+1FADH2+1GTP (substrate level phosphorylation) total=10ATP(新版)(6) Key enzyme citrate synthetase isocitrate DHnase α-KG DHnase complex 類似PDH complex(E1,E2,E3)(7)K
  • 00:00 75.
    TCA cycle重點整理(8)Acetyl-CoA的命運
  • 00:00 76.
    Slide 29
  • 00:00 77.
    TCA cycle重點整理(8)TCAcycle所需的Vitamin E1 Thiamine pyrophosphate(TPP)→thiamin(B1) E2 CoA.SH=panothetic acid泛酸(B5) lopoic acid E3 NAD+(Niacin) (B3) FAD(Riboflavin) (B2)(9)三大Key enzyme促進抑制
  • 01:22 78.
    Slide 31
  • 00:01 79.
    TCA cycle重點整理(8)TCAcycle所需的Vitamin E1 Thiamine pyrophosphate(TPP)→thiamin(B1) E2 CoA.SH=panothetic acid泛酸(B5) lopoic acid E3 NAD+(Niacin) (B3) FAD(Riboflavin) (B2)(9)三大Key enzyme促進抑制
  • 00:00 80.
    Slide 29
  • 00:00 81.
    TCA cycle重點整理(8)Acetyl-CoA的命運
  • 00:00 82.
    TCA cycle重點整理(5) 得到3NADH+1FADH2+1GTP (substrate level phosphorylation) total=10ATP(新版)(6) Key enzyme citrate synthetase isocitrate DHnase α-KG DHnase complex 類似PDH complex(E1,E2,E3)(7)K
  • 06:23 83.
    TCA cycle重點整理(1)=citric acid cycle =tricarboxylic acid cycle =Kreb cycle(2)OAA+acetylCoA→Citrate(1st化合物)(3)TCA主要在Mito matrix But: (4)Amphibolic pathway 分解:醣類 蛋白質 脂肪分解→AcetylCoA→TCA 合成:涉及 a.胺基酸的合成,purine/pyrimidine合成
  • 04:36 84.
    TCA cycle重點整理(5) 得到3NADH+1FADH2+1GTP (substrate level phosphorylation) total=10ATP(新版)(6) Key enzyme citrate synthetase isocitrate DHnase α-KG DHnase complex 類似PDH complex(E1,E2,E3)(7)K
  • 00:26 85.
    TCA cycle重點整理(1)=citric acid cycle =tricarboxylic acid cycle =Kreb cycle(2)OAA+acetylCoA→Citrate(1st化合物)(3)TCA主要在Mito matrix But: (4)Amphibolic pathway 分解:醣類 蛋白質 脂肪分解→AcetylCoA→TCA 合成:涉及 a.胺基酸的合成,purine/pyrimidine合成
  • 00:03 86.
    TCA cycle重點整理(5) 得到3NADH+1FADH2+1GTP (substrate level phosphorylation) total=10ATP(新版)(6) Key enzyme citrate synthetase isocitrate DHnase α-KG DHnase complex 類似PDH complex(E1,E2,E3)(7)K
  • 02:25 87.
    TCA cycle重點整理(8)Acetyl-CoA的命運
  • 00:02 88.
    Slide 29
  • 00:02 89.
    TCA cycle重點整理(8)Acetyl-CoA的命運
  • 00:51 90.
    Slide 29
  • 01:09 91.
    TCA cycle重點整理(8)TCAcycle所需的Vitamin E1 Thiamine pyrophosphate(TPP)→thiamin(B1) E2 CoA.SH=panothetic acid泛酸(B5) lopoic acid E3 NAD+(Niacin) (B3) FAD(Riboflavin) (B2)(9)三大Key enzyme促進抑制
  • 08:32 92.
    Slide 31
  • 00:00 93.
    TCA cycle重點整理(8)TCAcycle所需的Vitamin E1 Thiamine pyrophosphate(TPP)→thiamin(B1) E2 CoA.SH=panothetic acid泛酸(B5) lopoic acid E3 NAD+(Niacin) (B3) FAD(Riboflavin) (B2)(9)三大Key enzyme促進抑制
  • 00:00 94.
    Slide 29
  • 00:00 95.
    TCA cycle重點整理(8)Acetyl-CoA的命運
  • 01:08 96.
    TCA cycle重點整理(5) 得到3NADH+1FADH2+1GTP (substrate level phosphorylation) total=10ATP(新版)(6) Key enzyme citrate synthetase isocitrate DHnase α-KG DHnase complex 類似PDH complex(E1,E2,E3)(7)K
  • 00:00 97.
    TCA cycle重點整理(8)Acetyl-CoA的命運
  • 00:00 98.
    Slide 29
  • 00:00 99.
    TCA cycle重點整理(8)TCAcycle所需的Vitamin E1 Thiamine pyrophosphate(TPP)→thiamin(B1) E2 CoA.SH=panothetic acid泛酸(B5) lopoic acid E3 NAD+(Niacin) (B3) FAD(Riboflavin) (B2)(9)三大Key enzyme促進抑制
  • 00:00 100.
    Slide 31
  • 05:42 101.
    Slide 32
  • 00:04 102.
    TCA cycle重點整理(10)Aconitase除了可以做為酵素,也可調解鐵的恆定(FeS中心) Aconitase的調節 locoweed含fluoroacetate
  • 00:01 103.
    TCA cycle重點整理(12)Isocitrate Dhnase 有兩種分別 需NAD+ (TCA cycle,在mito matrix) NADP+(fatty acid 合成,在cytosol)
  • 02:53 104.
    Gluconeogensis重點整理(1)從non-glucoese→glucose Glycerol-3-P Alaline Lacate OAA , pyr ,glycogenic a.a(2)location: cytosol 同時在粒腺體細胞質的反應 mitomatrix (1)Gluconeogenesis (
  • 1:09:18 105.
    醣類代謝上-講師版國考複習 (1).pptx
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20180627
4:00:35, 發布於 2018-06-28 by 陳宏宇