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Thiophene-2,3-dicarboxylic acid is a heterocyclic chemical compound featuring a thiophene ring with two carboxylic acid groups attached at the 2 and 3 positions. It is known for its unique structure and reactivity, which makes it a valuable component in the synthesis of pharmaceuticals and organic materials. Its versatility in applications has garnered interest from researchers and industries in pharmaceuticals, materials science, and organic synthesis.

71189-23-6

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71189-23-6 Usage

Uses

Used in Pharmaceutical Industry:
Thiophene-2,3-dicarboxylic acid is used as a key intermediate in the synthesis of various pharmaceuticals for its ability to contribute to the development of new drugs with potentially valuable properties.
Used in Materials Science:
In the field of materials science, Thiophene-2,3-dicarboxylic acid is utilized as a building block for the production of organic materials, contributing to the creation of innovative materials with unique characteristics.
Used in Organic Synthesis:
Thiophene-2,3-dicarboxylic acid is employed as a versatile reactant in organic synthesis, enabling the formation of a wide range of organic compounds for use across different chemical industries.

Check Digit Verification of cas no

The CAS Registry Mumber 71189-23-6 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 7,1,1,8 and 9 respectively; the second part has 2 digits, 2 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 71189-23:
(7*7)+(6*1)+(5*1)+(4*8)+(3*9)+(2*2)+(1*3)=126
126 % 10 = 6
So 71189-23-6 is a valid CAS Registry Number.
InChI:InChI=1/C4H2N2OS/c7-3-6-4-5-1-2-8-4/h1-2H

71189-23-6SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 19, 2017

Revision Date: Aug 19, 2017

1.Identification

1.1 GHS Product identifier

Product name Thiophene-2,3-Dicarboxylic Acid

1.2 Other means of identification

Product number -
Other names 2-isocyanato-1,3-thiazole

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:71189-23-6 SDS

71189-23-6Downstream Products

71189-23-6Relevant academic research and scientific papers

Synthesis and nematicidal activity of piperazinedione derivatives based on the natural product Barettin

Sun, Haiyang,Li, Hui,Wang, Jiayi,Song, Gonghua

, p. 977 - 980 (2017/11/16)

Nematodes are serious constraints of crop production worldwide. However, the traditional nematicides suffer from the side-effects, including environmental and human toxicity. Herein, more than 70 novel piperazinedione derivatives based on the natural product Barettin were synthesized and evaluated against the root-knot nematode Meloidogyne incognita (M. incognita). While most of synthesized compounds exhibited certain nematicidal activity at high concentration, the best one showed a nematicidal activity of 75% at 2.4 μmol/L.

Discovery of novel VEGFR-2 inhibitors. Part 5: Exploration of diverse hinge-binding fragments via core-refining approach

Shan, Yuanyuan,Gao, Hongping,Shao, Xiaowei,Wang, Jinfeng,Pan, Xiaoyan,Zhang, Jie

, p. 80 - 90 (2015/09/15)

Pathological angiogenesis plays a critical role in numerous diseases including malignancy. VEGFR-2 is the central regulators in angiogenesis and has become a promising target for anticancer drug design. We have identified a novel biphenyl-aryl urea incorporated with salicyladoxime (BPS-7) as potent VEGFR-2 inhibitor. As a continuation to our previous research, various aromatic-heterocyclic were introduced as hinge-binding fragment via a core-refining approach. Interestingly, many compounds exhibited comparable VEGFR-2 inhibition to Sorafenib. In particular, 12e and 12o displayed excellent VEGFR-2 inhibitory activity with IC50 values of 0.50 nM and 0.79 nM, respectively. Several title compounds showed considerable antiproliferative activity against A549 and SMMC-7721 cells. In addition, molecular docking was performed to rationalize the efficiency of the better compounds. These results will be instructive for further inhibitor design and optimization.

Inhibitors of protein isoprenyl transferases

-

, (2008/06/13)

Compounds having the formula or a pharmaceutically acceptable salt thereof wherein R1 is (a) hydrogen, (b) loweralkyl, (c) alkenyl, (d) alkoxy, (e) thioalkoxy, (f) halo, (g) haloalkyl, (h) aryl-L2—, and (i) heterocyclic-L2—; R2 is selected from (a) (b) —C(O)NH—CH(R14)—C(O)OR15, (c) (d) —C(O)NH—CH(R14)—C(O)NHSO2R16 (e) —C(O)NH—CH(R14)-tetrazolyl, (f) —C(O)NH-heterocyclic, and (g) —C(O)NH—CH(R14)—C(O)NR17R18; R3 is heterocyclic, aryl, substituted or unsubstituted cycloalkyl; R4 is hydrogen, lower alkyl, haloalkyl, halogen, aryl, arylakyl, heterocyclic, or (heterocyclic)alkyl; L1 is absent or is selected from (a) —L4—N(R5)—L5—, (b) —L4—O—L5—, (c) —L4—S(O)n—L5— (d) —L4-L6—C(W)—N(R5)—L5—, (e) —L4-L6—S(O)m—N(R5)—L5—, (f) —L4—N(R5)—C(W)—L7-L5—, (g) —L4—N(R5)—S(O)p—L7—L5—, (h) optionally substituted alkylene, (i) optionally substituted alkenylene, and (j) optionally substituted alkynylene are inhibitors of protein isoprenyl transferases. Also disclosed are protein isoprenyl transferase inhibiting compositions and a method of inhibiting protein isoprenyl transferases.

Inhibitors of protein isoprenyl transferases

-

, (2008/06/13)

Compounds having the formula or a pharmaceutically acceptable salt thereof wherein R1 is (a) hydrogen, (b) loweralkyl, (c) alkenyl, (d) alkoxy, (e) thioalkoxy, (f) halo, (g) haloalkyl, (h) aryl-L2—, and (i) heterocyclic-L2—; R2 is selected from(a) (b) —C(O)NH—CH(R14)—C(O)OR15, (d) —C(O)NH—CH(R14)—C(O)NHSO2R16,(e) —C(O)NH—CH(R14)-tetrazolyl, (f) —C(O)NH-heterocyclic, and(g) —C(O)NH—CH(R14)—C(O)NR17R18; R3 is substituted or unsubstituted heterocyclic or aryl, substituted or unsubstituted cycloalkyl or cycloalkenyl, ?and —P(W)RR3RR3′; R4 is hydrogen, lower alkyl, haloalkyl, halogen, aryl, arylakyl, heterocyclic, or (heterocyclic)alkyl; L1 is absent or is selected from (a) —L4—N(R5)—L5—, (b) —L4—O—L5—, (c) —L4—S(O)n—L5—(d) —L4—L6—C(W)—N(R5)—L5—, (e) —L4—L6—S(O)m—N(R5)—L5—, (f) —L4—N(R5)—C(W)—L7—L5—, (g) —L4—N(R5)—S(O)p—L7—L5—, (h) optionally substituted alkylene, (i) optionally substituted alkenylene, (j) optionally substituted alkynylene (k) a covalent bond, (l) and (m) are inhibitors of protein isoprenyl transferases. Also disclosed are protein isoprenyl transferase inhibiting compositions and a method of inhibiting protein isoprenyl transferases.

Inhibitors of protein isoprenyl transferases

-

, (2008/06/13)

Compounds having the formula or a pharmaceutically acceptable salt thereof wherein R1is (a) hydrogen, (b) loweralkyl, (c) alkenyl, (d) alkoxy, (e) thioalkoxy, (f) halo, (g) haloalkyl, (h) aryl-L2—, and (i) heterocyclic-L2—; R2is selected from (a) (b) —C(O)NH—CH(R14)—C(O)OR15, (d) —C(O)NH—CH(R14)—C(O)NHSO2R16, (e) —C(O)NH—CH(R14)-tetrazolyl, (f) —C(O)NH-heterocyclic, and (g) —C(O)NH—CH(R14)—C(O)NR17R18; R3is substituted or unsubstituted heterocyclic or aryl, substituted or unsubstituted cycloalkyl or cycloalkenyl, and —P(W)RR3RR3′; R4is hydrogen, lower alkyl, haloalkyl, halogen, aryl, arylakyl, heterocyclic, or (heterocyclic)alkyl; L1is absent or is selected from (a) —L4—N(R5)—L5—, (b) —L4—O—L5—, (c) —L4—S(O)n—L5— (d) —L4—L6—C(W)—N(R5)—L5—, (e) —L4—L6—S(O)m—N(R5)—L5—, (f) —L4—N(R5)—C(W)—L7—L5—, (g) —L4—N(R5)—S(O)p—L7—L5—, (h) optionally substituted alkylene, (i) optionally substituted alkenylene, (j) optionally substituted alkynylene (k) a covalent bond, (l) and (m) are inhibitors of protein isoprenyl transferases. Also disclosed are protein isoprenyl transferase inhibiting compositions and a method of inhibiting protein isoprenyl transferases.

Inhibitors of protein isoprenyl transferases

-

, (2008/06/13)

Compounds having the formula STR1or a pharmaceutically acceptable salt thereof wherein R 1 is (a) hydrogen, (b) loweralkyl, (c) alkenyl, (d) alkoxy, (e) thioalkoxy, (f) halo, (g) haloalkyl, (h) aryl-L 2 --, and (i) heterocyclic-L 2 --; R 2 is selected from STR2(b) --C(O)NH--CH(R 14)--C(O)OR 15, STR3(d) --C(O)NH--CH(R 14)--C(O)NHSO 2 R 16, (e) --C(O)NH--CH(R 14)-tetrazolyl, (f) --C(O)NH-heterocyclic, and (g) --C(O)NH--CH(R 14)--C(O)NR 17 R 18 ; R 3 is heterocyclic, aryl, substituted or unsubstituted cycloalkyl; R 4 is hydrogen, lower alkyl, haloalkyl, halogen, aryl, arylakyl, heterocyclic, or (heterocyclic)alkyl; L 1 is absent or is selected from (a) --L 4 --N(R 5)--L 5 --, (b) --L 4 --O--L 5 --, (c) --L 4 --S(O) n --L 5 -- (d) --L 4 --L 6 --C(W)--N(R 5)--L 5 --, (e) --L 4 --L 6 --S(O)m--N(R 5)--L 5 --, (f) --L 4 --N(R 5)--C(W)--L 7 --L 5 --, (g) --L 4 --N(R 5)--S(O) p --L 7 --L 5 --, (h) optionally substituted alkylene, (i) optionally substituted alkenylene, and (j) optionally substituted alkynylene are inhibitors of protein isoprenyl transferases. Also disclosed are protein isoprenyl transferase inhibiting compositions and a method of inhibiting protein isoprenyl transferases.

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