High Performance Enzalutamide - Impurities of Amino Acid Used for Synthesize Protein – Gentolex
High Performance Enzalutamide - Impurities of Amino Acid Used for Synthesize Protein – Gentolex Detail:
Product Detail
|
NO |
Products |
CAS No |
Key Quality Indicator |
|||
|
Purity |
Max. impurity |
Total solvent residue |
Moisture |
|||
|
1 |
Fmoc-β-Ala-Ala-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
2 |
Fmoc-D-Ala-D-Ala-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
3 |
Fmoc-β-Ala-D-Ala-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
4 |
Fmoc-Arg(pbf)-Arg(pbf)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
5 |
Fmoc-β-Ala-Arg(pbf)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
6 |
Fmoc-D-Arg(pbf)-D-Arg(pbf)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
7 |
Fmoc-β-Ala-D-Arg(pbf)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
8 |
Fmoc-HomoArg(pbf)-HomoArg(pbf)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
9 |
Fmoc-β-Ala-HomoArg(pbf)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
10 |
Fmoc-Asn(Trt)-Asn(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
11 |
Fmoc-β-Ala-Asn(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
12 |
Fmoc-Asp(OtBu)-Asp(OtBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
13 |
Fmoc-β-Ala-Asp(OtBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
14 |
Fmoc-Cys(Trt)-Cys(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
15 |
Fmoc-β-Ala-Cys(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
16 |
Fmoc-Cys(Acm)-Cys(Acm)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
17 |
Fmoc-β-Ala-Cys(Acm)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
18 |
Fmoc-Gln(Trt)-Gln(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
19 |
Fmoc-β-Ala-Gln(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
20 |
Fmoc-Glu(OtBu)-Glu(OtBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
21 |
Fmoc-β-Ala-Glu(OtBu)-OH.H2O |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
22 |
Fmoc-β-Ala-Gly-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
23 |
Fmoc-His(Trt)-His(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
24 |
Fmoc-β-Ala-His(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
25 |
Fmoc-Ile-Ile-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
26 |
Fmoc-β-Ala-Ile-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
27 |
Fmoc-Leu-Leu-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
28 |
Fmoc-β-Ala-Leu-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
29 |
Fmoc-D-Leu-D-Leu-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
30 |
Fmoc-β-Ala-D-Leu-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
31 |
Fmoc-Lys(Boc)-Lys(Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
32 |
Fmoc-β-Ala-Lys(Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
33 |
Fmoc-Lys(Alloc)-Lys(Alloc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
34 |
Fmoc-β-Ala-Lys(Alloc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
35 |
Fmoc-Met-Met-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
36 |
Fmoc-β-Ala-Met-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
37 |
Fmoc-Orn(Boc)-Orn(Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
38 |
Fmoc-β-Ala-Orn(Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
39 |
Fmoc-Phe-Phe-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
40 |
Fmoc-β-Ala-Phe-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
41 |
Fmoc-D-Phe-D-Phe-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
42 |
Fmoc-β-Ala-D-Phe-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
43 |
Fmoc-Pro-Pro-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
44 |
Fmoc-β-Ala-Pro-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
45 |
Fmoc-Ser(tBu)-Ser(tBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
46 |
Fmoc-β-Ala-Ser(tBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
47 |
Fmoc-Ser(Trt)-Ser(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
48 |
Fmoc-β-Ala-Ser(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
49 |
Fmoc-Thr(tBu)-Thr(tBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
50 |
Fmoc-β-Ala-Thr(tBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
51 |
Fmoc-Trp(Boc)-Trp(Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
52 |
Fmoc-β-Ala-Trp(Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
53 |
Fmoc-D-Trp(Boc)-D-Trp(Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
54 |
Fmoc-β-Ala-D-Trp(Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
55 |
Fmoc-Tyr(tBu)-Tyr(tBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
56 |
Fmoc-β-Ala-Tyr(tBu)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
57 |
Fmoc-D-Tyr(Et)-D-Tyr(Et)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
58 |
Fmoc-β-Ala-D-Tyr(Et)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
59 |
Fmoc-Tyr(Me)-Tyr(Me)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
60 |
Fmoc-β-Ala-Tyr(Me)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
61 |
Fmoc-Val-Val-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
62 |
Fmoc-β-Ala-Val-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
63 |
Fmoc-D-Cit-D-Cit-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
64 |
Fmoc-β-Ala-D-Cit-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
65 |
Fmoc-β-Ala-Dab-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
66 |
Fmoc-(3-(2-naphthyl)-D-Ala)2-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
67 |
Fmoc-β-Ala-3-(2-naphthyl)-D-Ala-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
68 |
Fmoc-(3-(3-pyridinyl)-D-Ala)2-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
69 |
Fmoc-β-Ala-3-(3-pyridinyl)-D-Ala-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
70 |
Fmoc-(4-chloro-D-Phe)2-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
71 |
Fmoc-β-Ala-4-chloro-D-Phe-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
72 |
Fmoc-(D-4Aph(tBuCbm))2-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
73 |
Fmoc-β-Ala-D-4Aph(tBuCbm)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
74 |
Fmoc-Aph(L-Hor)-Aph(L-Hor)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
75 |
Fmoc-β-Ala-Aph(L-Hor)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
76 |
Fmoc-Lys(iPr,Boc)-Lys(iPr,Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
77 |
Fmoc-β-Ala-Lys(iPr,Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
78 |
Fmoc-β-Ala-AEEA-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
79 |
Fmoc-Aib-Aib-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
80 |
Fmoc-β-Ala-Aib-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
81 |
Fmoc-Arg-OH |
91000-69-0 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
82 |
H-Arg(pbf)-OH |
200115-86-2 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
83 |
Fmoc-D-Arg-OH |
130752-32-8 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
84 |
H-D-Arg(pbf)-OH |
200116-81-0 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
85 |
Fmoc-HomoArg-OH.HCl |
208174-14-5 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
86 |
H-HomoArg(pbf)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
87 |
Fmoc-D-HomoArg-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
88 |
H-D-HomoArg(pbf)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
89 |
Fmoc-Asn-OH |
71989-16-7 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
90 |
H-Asn(Trt)-OH |
132388-58-0 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
91 |
Fmoc-Asp-OH |
119062-05-4 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
92 |
H-Asp(OtBu)-OH |
3057-74-7 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
93 |
Fmoc-Cys-OH |
135248-89-4 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
94 |
H-Cys(Trt)-OH |
2799/7/7 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
95 |
H-Cys(Acm)-OH.HCl |
28798-28-9 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
96 |
Fmoc-Gln-OH |
71989-20-3 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
97 |
H-Gln(Trt)-OH |
102747-84-2 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
98 |
Fmoc-Glu-OH |
121343-82-6 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
99 |
H-Glu(OtBu)-OH.H2O |
2419-56-9 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
100 |
Fmoc-His-OH |
116611-64-4 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
101 |
H-His(Trt)-OH |
35146-32-8 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
102 |
Boc-His-OH |
17791-52-5 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
103 |
Fmoc-Lys-OH |
105047-45-8 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
104 |
H-Lys(Boc)-OH |
2418-95-3 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
105 |
H-Lys(Alloc)-OH |
6298/3/9 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
106 |
Fmoc-Orn-OH.HCl |
201046-57-3 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
107 |
H-Orn(Boc)-OH |
13650-49-2 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
108 |
Fmoc-Ser-OH |
73724-45-5 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
109 |
H-Ser(tBu)-OH |
18822-58-7 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
110 |
H-Ser(Trt)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
111 |
Fmoc-Thr-OH.H2O |
73731-37-0 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
112 |
H-Thr(tBu)-OH |
4378-13-6 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
113 |
Fmoc-Trp-OH |
35737-15-6 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
114 |
H-Trp(Boc)-OH |
146645-63-8 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
115 |
Fmoc-D-Trp-OH |
86123-11-7 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
116 |
H-D-Trp(Boc)-OH |
201290-11-1 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
117 |
Fmoc-Tyr-OH |
92954-90-0 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
118 |
H-Tyr(tBu)-OH |
18822-59-8 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
119 |
Fmoc-D-Tyr-OH |
112883-29-1 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
120 |
H-D-Tyr(Et)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
121 |
H-Tyr(Me)-OH.HCl |
67423-44-3 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
122 |
Fmoc-D-4Aph(Cbm)-OH |
324017-22-3 |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
123 |
H-D-4Aph(tBuCbm)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
124 |
Fmoc-Lys(iPr)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
|
125 |
H-Lys(iPr,Boc)-OH |
NA |
≥98.0% |
≤1.0% |
≤8.0% |
≤2.0% |
About
Compensation
Gentolex provide great quality products, if any product quality is raised by the client within the required time frame with sufficient evidences, we will provide necessary analysis and evaluation to trigger the procedures of compensations.
Production
The capacities of pharmaceutical products reached tons grade, the capacities of chemical products reach 100tons+ grade, the capabilities are well equipped to serve clients worldwide.
Research and Development
Every year, there is plan set up by the R&D team to develop different new products, when targets set, every member in the team will have to carry on with KPI responsibility and with incentive policy.
Product detail pictures:
Related Product Guide:
abide by the contract", conforms into the market requirement, joins in the market competition by its good quality also as provides a lot more comprehensive and great company for purchasers to let them turn into huge winner. The pursue from the firm, would be the clients' gratification for High Performance Enzalutamide - Impurities of Amino Acid Used for Synthesize Protein – Gentolex , The product will supply to all over the world, such as: Georgia, British, Norwegian, They're durable modeling and promoting well all over the world. Under no circumstances disappearing key functions in a brief time, it's a must for yourself personally of fantastic quality. Guided by the principle of Prudence, Efficiency, Union and Innovation. the business make an awesome efforts to expand its international trade, raise its enterprise. rofit and improve its export scale. We have been confident that we will have a vibrant prospect and to be distributed all over the world in the years to come.
By Christine from Lahore - 2018.09.29 17:23
Adhering to the business principle of mutual benefits, we have a happy and successful transaction, we think we will be the best business partner.
By Eileen from Pakistan - 2017.08.28 16:02
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