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>> Signaling Pathways >> Proteases

Proteases

Proteases is a general term for a class of enzymes that hydrolyze protein peptide chains. According to the way they degrade polypeptides, they are divided into two categories: endopeptidases and telopeptidases. The former can cut the large molecular weight polypeptide chain from the middle to form prions and peptones with smaller molecular weights; the latter can be divided into carboxypeptidase and aminopeptidase, which respectively remove the peptide from the free carboxyl terminus or free amino terminus of the polypeptide one by one. Chain hydrolysis produces amino acids.

A general term for a class of enzymes that hydrolyze peptide bonds in proteins. According to the way they hydrolyze polypeptides, they can be divided into endopeptidases and exopeptidases. Endopeptidase cleaves the interior of the protein molecule to form smaller molecular weight peptones and peptones. Exopeptidase hydrolyzes peptide bonds one by one from the end of the free amino group or carboxyl group of protein molecules, and frees amino acids, the former is aminopeptidase and the latter is carboxypeptidase. Proteases can be classified into serine proteases, sulfhydryl proteases, metalloproteases and aspartic proteases according to their active centers and optimum pH. According to the optimum pH value of its reaction, it is divided into acidic protease, neutral protease and alkaline protease. The proteases used in industrial production are mainly endopeptidases.

Proteases are widely found in animal offal, plant stems and leaves, fruits and microorganisms. Microbial proteases are mainly produced by molds and bacteria, followed by yeast and actinomycetes.

Enzymes that catalyze the hydrolysis of proteins. There are many kinds, the important ones are pepsin, trypsin, cathepsin, papain and subtilisin. Proteases have strict selectivity for the reaction substrates they act on. A protease can only act on certain peptide bonds in protein molecules, such as the peptide bonds formed by the hydrolysis of basic amino acids catalyzed by trypsin. Proteases are widely distributed, mainly in the digestive tract of humans and animals, and are abundant in plants and microorganisms. Due to limited animal and plant resources, the industrial production of protease preparations is mainly prepared by fermentation of microorganisms such as Bacillus subtilis and Aspergillus terrestris.

Targets for  Proteases

Products for  Proteases

  1. Cat.No. 상품명 정보
  2. GC39474 7-Ketolithocholic acid

    7-KLCA, 7-keto LCA, 7-oxo LCA, 7-keto Lithocholate, 7-oxo Lithocholate, 7-oxo Lithocholic Acid, NSC 226118

     7-Ketolithocholic acid (3 α-hydroxy-7-oxygen-5 β-cholic 산)은 일종의 담 즙 산, 7-Ketolithocholic acid 흡수 될 수 있고, 7-Ketolithocholic 산성의 생산을 억제 내생 담 즙 산, 그리고 담도 cholestero의 분비에 영향을 줄 수 있다. 7-Ketolithocholic acid Chemical Structure
  3. GC33616 7-Methylguanine

    Epiguanine, 2-Amino-7-methylhypoxanthine, N7-Methylguanine, NSC 193444, NSC 19647

     7-메틸구아닌은 DNA 메틸화의 대사 산물입니다. 7-Methylguanine Chemical Structure
  4. GC62817 7-Methylguanosine 5’-diphosphate sodium

    7-Methyl-GDP sodium; m7GDP sodium

     캡 유사체인 7-메틸구아노신 5'-디포스페이트(7-Methyl-GDP) 나트륨은 mRNA 캡 유사체의 합성에 사용될 수 있습니다. 7-Methylguanosine 5’-diphosphate sodium Chemical Structure
  5. GC31617 7-Methylxanthine

    7-MX, NSC 7861

     크산틴의 메틸 유도체인 7-메틸크산틴은 요로결석의 퓨린 성분 중 하나입니다. 7-Methylxanthine Chemical Structure
  6. GC14433 7α,25-dihydroxy Cholesterol

    7α,25-DHC

     7α,25-디히드록시콜레스테롤(7α,25-OHC)은 고아 GPCR 수용체 EBI2(GPR183)의 강력하고 선택적인 작용제이자 내인성 리간드입니다. 7α,25-dihydroxy Cholesterol Chemical Structure
  7. GC40462 8(R)-HETE

    8(R)-Hydroxyeicosatetraenoic Acid

     8(R)-HETE is biosynthesized by lipoxygenation of arachidonic acid in marine invertebrates such as gorgonian corals and starfish. 8(R)-HETE Chemical Structure
  8. GC41136 8(S),15(S)-DiHETE 8(S),15(S)-DiHETE is formed when 15(S)-HETE is subjected to further oxidation by 15-LO. 8(S),15(S)-DiHETE Chemical Structure
  9. GC40382 8(S)-HEPE 8(S)-HEPE is a monohydroxy fatty acid produced by lipoxygenase oxidation of EPA. 8(S)-HEPE Chemical Structure
  10. GC40463 8(S)-HETE

    8(S)-Hydroxyeicosatetraenoic Acid

     8(S)-HETE is a major lipoxygenase product in PMA-treated murine epidermis. 8(S)-HETE Chemical Structure
  11. GC42619 8(S)-HETrE 8(S)-HETrE is a monohydroxy polyunsaturated fatty acid produced by rabbit neutrophil lipoxygenase when dihomo-γ-linolenic acid is used as a substrate. 8(S)-HETrE Chemical Structure
  12. GC18544 8-dehydro Cholesterol 8-디하이드로 콜레스테롤 상승된 농도는 고전적인 스미스-렘리-오피츠 증후군(SLOS)의 진단적 생화학적 특징 중 하나입니다. 8-dehydro Cholesterol Chemical Structure
  13. GC60541 8-Demethyl Ivabradine 8-Demethyl Ivabradine은 Ivabradine의 대사 산물입니다. 8-Demethyl Ivabradine Chemical Structure
  14. GC49017 8-hydroxy Amoxapine A metabolite of amoxapine 8-hydroxy Amoxapine Chemical Structure
  15. GC42626 8-hydroxy Efavirenz 8-hydroxy Efavirenz is a major oxidative metabolite of the non-nucleoside reverse transcriptase inhibitor efavirenz. 8-hydroxy Efavirenz Chemical Structure
  16. GC18654 8-hydroxy Loxapine

    8-OH Loxapine

     8-hydroxy Loxapine (8-OH loxapine) is a metabolite formed when loxapine , an atypical antipsychotic, is metabolized by the cytochrome P450 isoform CYP1A2. 8-hydroxy Loxapine Chemical Structure
  17. GC49544 8-hydroxy Mirtazapine

    8-hydroxy-6-Azamianserin

     A metabolite of mirtazapine 8-hydroxy Mirtazapine Chemical Structure
  18. GC40926 8-Hydroxy-2'-deoxyguanosine

    8-OHdG

     8-Hydroxy-2'-deoxyguanosine은 산화 스트레스와 발암의 중요한 바이오마커입니다. 8-Hydroxy-2'-deoxyguanosine Chemical Structure
  19. GC35204 8-Hydroxyguanine 8-하이드록시구아닌은 활성 산소 종에서 생성되는 주요 돌연변이 전 병변입니다. 8-Hydroxyguanine Chemical Structure
  20. GC31219 8-Hydroxyguanosine

    7,8-Dihydro-8-oxoguanosine, 8-oxo-G, NSC 90393, 8-OHG

     8-하이드록시구아노신은 산화 스트레스의 체계적인 마커이자 RNA에 대한 하이드록실 라디칼 손상의 마커입니다. 8-Hydroxyguanosine Chemical Structure
  21. GC18515 8-iso Prostaglandin F2α

    iPF2α-III, 8-iso-15(S)-Prostaglandin F2α, 8-Isoprostane, 8-epi PGF2α, 15-F2t-Isoprostane

     8-iso 프로스타글란딘 F2α는 막 인지질에서 아라키돈산의 비효소적 과산화에 의해 생성되는 이소프로스탄입니다. 8-iso Prostaglandin F2α Chemical Structure
  22. GC18994 8-iso Prostaglandin F2β

    iPF2α-III, 8-iso-15(S)-Prostaglandin F2α, 8-Isoprostane, 8-epi PGF2α, 15-F2t-Isoprostane

     8-iso Prostaglandin F2β (8-iso PGF2β) is an isomer of PGF2α with a non-enzymatic, non-cyclooxygenase origin. 8-iso Prostaglandin F2β Chemical Structure
  23. GC41642 9(E),11(E),13(E)-Octadecatrienoic Acid

    β-Eleostearic Acid, β-ESA

     9(E),11(E),13(E)-Octadecatrienoic acid (β-ESA) is a conjugated polyunsaturated fatty acid that is found in plant seed oils and in mixtures of conjugated linolenic acids synthesized by the alkaline isomerization of linolenic acid. 9(E),11(E),13(E)-Octadecatrienoic Acid Chemical Structure
  24. GC42633 9(E)-Erythromycin A oxime (9E)-Erythromycin A oxime is a metabolite of the semisynthetic antibiotic roxithromycin . 9(E)-Erythromycin A oxime Chemical Structure
  25. GC40542 9(R)-HODE

    9(R)-Hydroxyoctadecadienoic Acid

     9(R)-HODE is one of several monohydroxylated products of linoleic acid. 9(R)-HODE Chemical Structure
  26. GC40029 9(S),10(S),13(S)-TriHOME 9(S),10(S),13(S)-TriHOME is an oxylipin derived from linoleic acid. 9(S),10(S),13(S)-TriHOME Chemical Structure
  27. GC46753 9(S),12(S),13(S)-TriHOME

    (–)-Pinellic Acid, 9S,12S,13S-Pinellic Acid

     An oxylipin 9(S),12(S),13(S)-TriHOME Chemical Structure
  28. GC40383 9(S)-HEPE 9(S)-HEPE is a monohydroxy fatty acid derived from EPA. 9(S)-HEPE Chemical Structure
  29. GC19460 9(S)-HODE 9(S)-HODE is produced by the lipoxygenation of linoleic acid in both plants and animals. 9(S)-HODE Chemical Structure
  30. GC40250 9(S)-HODE-d4 MaxSpec® Standard 9(S)-HODE-d4 is intended for use as an internal standard for the quantification of 9(S)-HODE by GC- or LC-mass spectrometry. 9(S)-HODE-d4 MaxSpec® Standard Chemical Structure
  31. GC42636 9(S)-HOTrE 9(S)-HOTrE is a monohydroxy polyunsaturated fatty acid produced by the action of 5-lipoxygenase on α-linolenic acid. 9(S)-HOTrE Chemical Structure
  32. GC40357 9(S)-HpODE 9(S)-HpODE is produced by the action of arachidonate 5-LO on linoleic acid. 9(S)-HpODE Chemical Structure
  33. GC42637 9(S)-HpOTrE 9(S)-HpOTrE is a monohydroperoxy polyunsaturated fatty acid produced by the action of 5-lipoxygenase (5-LO) on α-linolenic acid. 9(S)-HpOTrE Chemical Structure
  34. GC18389 9-cis Retinal

    9-cis Retinaldehyde, 9-cis Vitamin A aldehyde

     9-cis 레티날은 천연 레티노이드입니다. 9-cis Retinal Chemical Structure
  35. GC38883 9-Ethyladenine 9-에틸아데닌은 부분적으로 효과적인 APRT(아데닌 포스포리보실트랜스퍼라제) 억제제입니다. 9-Ethyladenine Chemical Structure
  36. GC42651 9-oxo-10(E),12(E)-Octadecadienoic Acid

    9-oxo ODA

     9-oxo-10(E),12(E)-Octadecadienoic acid (9-oxoODA) is a natural agonist, abundant in tomatoes, that activates PPARα at 10-20 μM. 9-oxo-10(E),12(E)-Octadecadienoic Acid Chemical Structure
  37. GC42653 9-OxoOTrE

    9KOTE, 9KOTrE

     9-OxoOTrE is produced by the oxidation of 9-HpOTrE. 9-OxoOTrE Chemical Structure
  38. GC45960 9c(i472)

    15-LOX-1 Inhibitor i472

     9c(i472)는 IC50 값이 0.19 μ인 15-LOX-1(15-리폭시게나제-1)의 강력한 억제제입니다. 9c(i472) Chemical Structure
  39. GC62859 Aβ42-IN-2 Aβ42-IN-2는 특허 WO2016070107, 화합물 실시예 36에서 추출한 γ-세크레타제 조절제이다. Aβ42-IN-2 Chemical Structure
  40. GC31938 A-69412 A-69412는 5-리폭시게나제(5-LO)의 가역적이고 특이적 억제제입니다. A-69412 Chemical Structure
  41. GC68587 A-908292

    A-908292는 효과적이고 선택적인 아세틸코엔자임 A 카복실라아제 2 (ACC2) 억제제로, hACC2의 IC50 값은 23 nM입니다. A-908292는 지방산 대사 연구에 사용될 수 있습니다.

     A-908292 Chemical Structure
  42. GC15614 A922500

    (1R,2R)2(4'(3phenylureido)biphenylcarbonyl)cyclopentanecarboxylic acid

     A diacylglycerol acyltransferase 1 inhibitor A922500 Chemical Structure
  43. GC42665 AAF-CMK (trifluoroacetate salt)

    NAlaAlaPheCMK, Tripeptidyl Peptidase Inhibitor II

     Tripeptidyl peptidase II (TPPII) is a serine peptidase of the subtilisin-type which removes tripeptides from the free NH2 terminus of oligopeptides. AAF-CMK (trifluoroacetate salt) Chemical Structure
  44. GC42667 Abacavir Carboxylate Abacavir carboxylate is an inactive metabolite of the HIV-1 reverse transcriptase inhibitor abacavir. Abacavir Carboxylate Chemical Structure
  45. GC46769 Abametapir

    5,5′-Dimethyl-2,2′-dipyridyl

     Abametapir는 알 부화 및 이의 발달에 중요한 금속단백분해효소를 표적으로 할 수 있는 금속단백분해효소(MMP) 억제제입니다. Abametapir Chemical Structure
  46. GC35219 Abiraterone metabolite 1

    3β-OH-5α-Abi

     Abiraterone 대사 산물 1은 abiraterone의 5β 감소 대사 산물입니다. 스테로이드 약물인 아비라테론은 CYP17A1을 억제하고 안드로겐 합성을 차단하며 전립선암의 생존을 연장합니다. Abiraterone metabolite 1 Chemical Structure
  47. GC67766 Abiraterone sulfate Abiraterone sulfate Chemical Structure
  48. GC35221 ABT-046 ABT-046은 인간 및 마우스 DGAT-1에 대해 IC50이 모두 8nM인 강력하고 선택적이며 경구 활성인 아실 CoA:디아실글리세롤 아실트랜스퍼라제 1(DGAT-1) 억제제입니다. ABT-046 Chemical Structure
  49. GC60548 ABT-100 ABT-100은 강력하고 선택성이 높으며 경구 활성인 파르네실트랜스퍼라제 억제제입니다. ABT-100은 세포 증식을 억제합니다. 2, PC-3 및 DU-145 세포)는 세포자멸사를 증가시키고 혈관신생을 감소시킨다. ABT-100은 광범위한 항종양 활성을 가지고 있습니다. ABT-100 Chemical Structure
  50. GC38264 Ac-Ala-OH Ac-Ala-OH Chemical Structure
  51. GA11174 Ac-Arg-OH.2H2O Ac-Arg-OH.2H2O Chemical Structure
  52. GA20489 Ac-Asn-OH Ac-Asn-OH는 내인성 대사 산물입니다. Ac-Asn-OH Chemical Structure
  53. GC17602 Ac-DEVD-AFC

    N-Acetyl-Asp-Glu-Val-Asp-7-amido-4-Trifluoromethylcoumarin,Caspase-3 Substrate (Fluorogenic)

     Ac-DEVD-AFC는 형광 기질입니다(Λex=400 nm, Λem=530 nm). Ac-DEVD-AFC Chemical Structure
  54. GC32695 Ac-DEVD-CHO Ac-DEVD-CHO은 Caspase-3 억제제로서 IC50 값이 0.016μM이다. Ac-DEVD-CHO Chemical Structure
  55. GC10951 Ac-DEVD-CMK

    Ac-Asp-Glu-Val-Asp-CMK,Caspase-3 Inhibitor III

     cell-permeable, and irreversible inhibitor of caspase Ac-DEVD-CMK Chemical Structure
  56. GA10446 Ac-DL-Trp-OH Ac-DL-Trp-OH Chemical Structure
  57. GC60558 Ac-FLTD-CMK Gasdermin D(GSDMD) 유래 억제제인 Ac-FLTD-CMK는 특정 염증성 카스파제 억제제입니다. Ac-FLTD-CMK Chemical Structure
  58. GC49704 Ac-FLTD-CMK (trifluoroacetate salt)

    Ac-Phe-Leu-Thr-Asp-CMK

     An inhibitor of caspase-1, -4, -5, and -11 Ac-FLTD-CMK (trifluoroacetate salt) Chemical Structure
  59. GA10356 Ac-Gly-OH Ac-Gly-OH Chemical Structure
  60. GA10825 Ac-His-OH Ac-His-OH Ac-His-OH Chemical Structure
  61. GC10258 Ac-IEPD-AFC Ac-IEPD-AFC Chemical Structure
  62. GC10968 Ac-LEHD-AFC A caspase-4, -5, and -9 fluorogenic substrate Ac-LEHD-AFC Chemical Structure
  63. GA20612 Ac-Lys-OH Ac-Lys-OH는 내인성 대사 산물입니다. Ac-Lys-OH Chemical Structure
  64. GA20680 Ac-Val-OH Ac-Val-OH Chemical Structure
  65. GC31548 ACAT-IN-1 cis isomer ACAT-IN-1 시스 이성질체는 IC50이 100nM인 강력한 ACAT 억제제입니다. ACAT-IN-1 cis isomer Chemical Structure
  66. GC42690 Acecainide (hydrochloride)

    N-Acetylprocainamide

     Acecainide is an active metabolite of the class III antiarrhythmic procainamide. Acecainide (hydrochloride) Chemical Structure
  67. GC35228 Aceglutamide

    Aceglutamide, Acetylglutamine, N-acetyl Gln, NSC 186896

     Aceglutamide(α-N-Acetyl-L-glutamine)는 기억력과 집중력을 향상시키는 데 사용되는 정신 자극제 및 방향성입니다. Aceglutamide Chemical Structure
  68. GC46779 Acequinocyl A naphthoquinone acaricide Acequinocyl Chemical Structure
  69. GC38317 Acetamide 아세트아미드는 메틸아민, 티오아세트아미드 및 살충제의 합성에서 중간체로 사용되며 가죽, 천 및 코팅의 가소제로 사용됩니다. 아세트아미드는 발암성이 있습니다. Acetamide Chemical Structure
  70. GC12917 Acetaminophen

    4-Acetamidophenol, APAP, 4'-Hydroxyacetanilide, NSC 3991, NSC 109028, Paracetamol

    COX 억제제

     Acetaminophen Chemical Structure
  71. GC62824 Acetaminophen glucuronide 아세트아미노펜 글루쿠로나이드(APAP-glu)는 아세트아미노펜의 비활성 글루쿠로나이드 대사 산물입니다. Acetaminophen glucuronide Chemical Structure
  72. GC42693 Acetaminophen Glucuronide (sodium salt)

    4-Acetamidophenol Glucuronide, APAP Glucuronide, 4'-Hydroxyacetanilide Glucuronide, Paracetamol Glucuronide

     Acetaminophen glucuronide is an inactive metabolite of the analgesic and antipyretic agent acetaminophen. Acetaminophen Glucuronide (sodium salt) Chemical Structure
  73. GC33558 Acetaminophen metabolite 3-hydroxy-acetaminophen (3-Hydroxyacetaminophen) 3-하이드록시-아세트아미노펜은 진통제인 아세트아미노펜의 대사산물입니다. Acetaminophen metabolite 3-hydroxy-acetaminophen (3-Hydroxyacetaminophen) Chemical Structure
  74. GC42694 Acetaminophen sulfate (potassium salt)

    4-Acetamidophenol sulfate, APAP sulfate, 4'-Hydroxyacetanilide sulfate, Paracetamol sulfate

     Acetaminophen sulfate is a metabolite of acetaminophen. Acetaminophen sulfate (potassium salt) Chemical Structure
  75. GC64137 Acetaminophen-d3 Acetaminophen-d3 Chemical Structure
  76. GC42695 Acetoacetyl Coenzyme A (sodium salt hydrate)

    Acetoacetyl-CoA

    Acetoacetyl coenzyme A (acetoacetyl-CoA) is a precursor to HMG-CoA in the isoprenoid pathway.

     Acetoacetyl Coenzyme A (sodium salt hydrate) Chemical Structure
  77. GC42697 Acetyl Coenzyme A (sodium salt)

    AcetylCoA

     Acetyl-coenzyme A (Acetyl-CoA) trisodium은 막 비침투성 중추 대사 중간체이며 TCA 회로와 산화적 인산화 대사에 참여합니다. Acetyl Coenzyme A (sodium salt) Chemical Structure
  78. GC60555 Acetyl phosphate(lithium potassium) 인산 아세틸(리튬 칼륨)은 내인성 대사 산물입니다. Acetyl phosphate(lithium potassium) Chemical Structure
  79. GC12152 Acetyl-Calpastatin (184-210) (human) Acetyl-Calpastatin (184-210) (human) Chemical Structure
  80. GC46789 Acetyl-L-carnitine-d3 (chloride)

    ALCAR-d3, L-Acetylcarnitine-d3, C2:0 Carnitine-d3, CAR 2:0-d3, L-Carnitine acetyl ester-d3

     An internal standard for the quantification of L-acetylcarnitine Acetyl-L-carnitine-d3 (chloride) Chemical Structure
  81. GC68097 Acetyl-L-carnitine-d3 hydrochloride

    O-Acetyl-L-carnitine-d3 hydrochloride

     Acetyl-L-carnitine-d3 hydrochloride Chemical Structure
  82. GC14142 Acetylcholine Chloride

    ACh

     신경 전달 물질인 아세틸콜린 클로라이드(ACh chloride)는 강력한 콜린 작용제입니다. Acetylcholine Chloride Chemical Structure
  83. GC11786 Acetylcysteine

    N-acetylcysteine; N-acetyl-L-cysteine; NAC; Acetadote

     Acetylcysteine은 CYSTEINE의 N-acetyl 유도체이다. Acetylcysteine Chemical Structure
  84. GC32305 ACH-806 (GS9132)

    GS9132

     ACH-806(GS9132)은 14nM의 EC50으로 C형 간염 바이러스(HCV) 복제를 억제할 수 있는 NS4A 길항제입니다. ACH-806 (GS9132) Chemical Structure
  85. GC49406 ACT-373898 ACT-373898은 Macitentan의 비활성 카르복실산 대사 산물입니다. ACT-373898 Chemical Structure
  86. GC16350 Actinonin

    (-)-Actinonin,Ro 06-1467

     Actinonin ((-)-Actinonin)은 Actinomyces에 의해 생성되는 자연 발생 항균제입니다. Actinonin Chemical Structure
  87. GC46798 Adapalene-d3 An internal standard for the quantification of adapalene Adapalene-d3 Chemical Structure
  88. GC13432 Adenine 퓨린인 아데닌(6-Aminopurine)은 DNA의 핵산에 있는 4개의 핵염기 중 하나입니다. 아데닌은 DNA와 RNA의 화학 성분으로 작용합니다. 아데닌은 또한 세포 호흡, ATP와 보조인자(NAD 및 FAD)의 형태, 그리고 단백질 합성과 관련된 생화학에서 중요한 역할을 합니다. Adenine Chemical Structure
  89. GC62828 Adenine monohydrochloride hemihydrate 아데닌 일염산염 반수화물은 내인성 대사 산물입니다. Adenine monohydrochloride hemihydrate Chemical Structure
  90. GC17278 Adenine sulfate 퓨린인 아데닌 설페이트(6-아미노퓨린 헤미설페이트)는 DNA 핵산의 4가지 핵염기 중 하나입니다. 아데닌 설페이트는 DNA와 RNA의 화학 성분으로 작용합니다. 아데닌 설페이트는 또한 세포 호흡, ATP와 보조인자(NAD 및 FAD)의 형태, 그리고 단백질 합성과 관련된 생화학에서 중요한 역할을 합니다. Adenine sulfate Chemical Structure
  91. GC14106 Adenosine

    NSC 7652

    뉴클레오사이드

     Adenosine Chemical Structure
  92. GC19630 Adenosine 2′-monophosphate 아데노신 &2#8242;-일인산(2'-AMP)은 세포외 2',3'-CAMP에 의해 전환됩니다. Adenosine 2′-monophosphate Chemical Structure
  93. GC10880 Adenosine 3-5-cyclic monophosphate

    Adenosine 3',5'-cyclic monophosphate, cAMP, Cyclic adenosine monophosphate, NSC 94017, NSC 143670

     A second messenger Adenosine 3-5-cyclic monophosphate Chemical Structure
  94. GC17558 Adenosine 5'-triphosphate disodium salt hydrate

    ATP disodium salt hydrate

     아데노신 5'-삼인산 이나트륨 염 수화물(아데노신 5&7#39;-삼인산이나트륨 염 수화물)은 생체내 에너지 저장 및 대사의 중심 구성요소이며, 대사 펌프를 구동하기 위한 대사 에너지를 제공하고 세포에서 조효소 역할을 합니다. Adenosine 5'-triphosphate disodium salt hydrate Chemical Structure
  95. GC13172 Adenosine 5-monophosphate

    AMP

     아데노신 5-일인산은 에너지 항상성과 신호 전달을 조절하는 주요 세포 대사 산물입니다. Adenosine 5-monophosphate Chemical Structure
  96. GC11969 Adenosine-5'-diphosphate

    Adenosine Pyrophosphate,ADP,5′-ADP

    퓨린 수용체의 아고니스트

     Adenosine-5'-diphosphate Chemical Structure
  97. GC64916 Adenylosuccinic acid tetraammonium

    Adenylosuccinate tetraammonium; Aspartyl adenylate tetraammonium

     아데닐로숙신산 테트라암모늄(Adenylosuccinate; Aspartyl adenylate)은 퓨린 리보뉴클레오사이드 모노포스페이트이며 뉴클레오타이드 주기 대사산물에서 역할을 합니다. Adenylosuccinic acid tetraammonium Chemical Structure
  98. GC63661 Aderbasib Aderbasib(INCB007839)는 ADAM10 및 ADAM17의 강력한 경구 활성 표적 특이적 저 나노몰 하이드록사메이트 기반 억제제입니다. Aderbasib은 강력한 항종양 활성을 나타내며 미만성 거대 B 세포 비호지킨 림프종, HER2+ 유방암, 신경교종 등을 포함한 암 연구에 사용할 수 있습니다. Aderbasib Chemical Structure
  99. GC33805 Adipic acid Adipic acid는 HMG-CoA 리아제 결핍, carnitine-acylcarnitine translocase 결핍, malonyl-Coa decarboxylase 결핍 및 중쇄 아실-CoA 탈수소효소 결핍과 관련이 있는 것으로 밝혀졌으며, 이는 선천적인 대사 오류입니다. Adipic acid Chemical Structure
  100. GC19021 Adjudin

    AF-2364

     Adjudin은 우수한 미토콘드리아 억제 효과가 있는 광범위하게 연구된 남성 피임약입니다. Adjudin은 또한 강력한 Cl-채널 차단제입니다. Adjudin Chemical Structure
  101. GC49216 ADL 08-0011 (hydrochloride) An active metabolite of alvimopan ADL 08-0011 (hydrochloride) Chemical Structure

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