factory Outlets for Linagliptin - Impurities of Amino Acid Used for Synthesize Protein – Gentolex
factory Outlets for Linagliptin - 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:
Our products are broadly regarded and reliable by end users and can meet up with constantly transforming financial and social requires of factory Outlets for Linagliptin - Impurities of Amino Acid Used for Synthesize Protein – Gentolex , The product will supply to all over the world, such as: US, Czech republic, Porto, After years of development, we have formed strong ability in new product development and strict quality control system to ensure excellent quality and service. With the support of many long term cooperated customers, our products are welcomed all over the world.
By Olga from South Korea - 2018.12.10 19:03
The accounts manager made a detailed introduction about the product, so that we have a comprehensive understanding of the product, and ultimately we decided to cooperate.
By Natividad from Uruguay - 2018.09.23 17:37
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