Class information for: |
Basic class information |
Class id | #P | Avg. number of references |
Database coverage of references |
---|---|---|---|
12974 | 868 | 34.3 | 65% |
Hierarchy of classes |
The table includes all classes above and classes immediately below the current class. |
Cluster id | Level | Cluster label | #P |
---|---|---|---|
5 | 4 | CHEMISTRY, ORGANIC//CHEMISTRY, INORGANIC & NUCLEAR//CHEMISTRY, MULTIDISCIPLINARY | 1745167 |
239 | 3 | LIPASE//JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC//BIOCATALYSIS | 47598 |
3141 | 2 | EPOXIDE HYDROLASE//HALOALKANE DEHALOGENASE//DEHALOGENASE | 2253 |
12974 | 1 | EPOXIDE HYDROLASE//CIS EPOXYSUCCINATE HYDROLASE//GRP BIOCATALYSE CHIM FINE | 868 |
Terms with highest relevance score |
rank | Term | termType | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|---|
1 | EPOXIDE HYDROLASE | authKW | 3649657 | 24% | 50% | 206 |
2 | CIS EPOXYSUCCINATE HYDROLASE | authKW | 527663 | 2% | 100% | 15 |
3 | GRP BIOCATALYSE CHIM FINE | address | 456257 | 2% | 62% | 21 |
4 | ENANTIOPURE EPOXIDES | authKW | 281420 | 1% | 100% | 8 |
5 | ERS 157 | address | 180911 | 1% | 86% | 6 |
6 | CIS EPOXYSUCCINIC ACID HYDROLASE | authKW | 175888 | 1% | 100% | 5 |
7 | ENANTIOSELECTIVE HYDROLYSIS | authKW | 152600 | 3% | 16% | 27 |
8 | P NITROSTYRENE OXIDE | authKW | 140710 | 0% | 100% | 4 |
9 | ENANTIOCONVERGENT HYDROLYSIS | authKW | 112566 | 0% | 80% | 4 |
10 | CHIRAL STYRENE OXIDE | authKW | 105533 | 0% | 100% | 3 |
Web of Science journal categories |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | Biotechnology & Applied Microbiology | 1555 | 19% | 0% | 164 |
2 | Biochemistry & Molecular Biology | 1175 | 33% | 0% | 285 |
3 | Chemistry, Organic | 1153 | 18% | 0% | 153 |
4 | Biophysics | 376 | 9% | 0% | 74 |
5 | Toxicology | 222 | 6% | 0% | 48 |
6 | Pharmacology & Pharmacy | 215 | 12% | 0% | 101 |
7 | Chemistry, Physical | 115 | 11% | 0% | 94 |
8 | Biochemical Research Methods | 104 | 5% | 0% | 40 |
9 | Chemistry, Inorganic & Nuclear | 104 | 5% | 0% | 43 |
10 | Chemistry, Multidisciplinary | 42 | 8% | 0% | 67 |
Address terms |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | GRP BIOCATALYSE CHIM FINE | 456257 | 2% | 62% | 21 |
2 | ERS 157 | 180911 | 1% | 86% | 6 |
3 | ESA 6111GRP BIOCATALYSE CHIM FINE | 105533 | 0% | 100% | 3 |
4 | UMR CNRS 6111 | 80402 | 0% | 57% | 4 |
5 | CNRSERS 157 | 70355 | 0% | 100% | 2 |
6 | CNRSUMR 6111 | 70355 | 0% | 100% | 2 |
7 | CNRSESA 6111 | 46902 | 0% | 67% | 2 |
8 | SCI LUMINY | 41743 | 3% | 5% | 26 |
9 | UMR 6111 | 39571 | 0% | 38% | 3 |
10 | CHEM ORGAN BIOORGAN CHEM | 36456 | 2% | 5% | 19 |
Journals |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC | 9241 | 3% | 1% | 30 |
2 | TETRAHEDRON-ASYMMETRY | 5963 | 5% | 0% | 42 |
3 | BIOTECHNOLOGY LETTERS | 5393 | 4% | 0% | 38 |
4 | BIOCHEMICAL PHARMACOLOGY | 2997 | 5% | 0% | 40 |
5 | REVIEWS IN BIOCHEMICAL TOXICOLOGY | 1464 | 0% | 4% | 1 |
6 | ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS | 1361 | 3% | 0% | 26 |
7 | ENZYME AND MICROBIAL TECHNOLOGY | 1140 | 2% | 0% | 14 |
8 | APPLIED MICROBIOLOGY AND BIOTECHNOLOGY | 983 | 2% | 0% | 20 |
9 | BIOCATALYSIS AND BIOTRANSFORMATION | 950 | 1% | 1% | 5 |
10 | XENOBIOTICA | 891 | 1% | 0% | 10 |
Author Key Words |
Core articles |
The table includes core articles in the class. The following variables is taken into account for the relevance score of an article in a cluster c: (1) Number of references referring to publications in the class. (2) Share of total number of active references referring to publications in the class. (3) Age of the article. New articles get higher score than old articles. (4) Citation rate, normalized to year. |
Rank | Reference | # ref. in cl. |
Shr. of ref. in cl. |
Citations |
---|---|---|---|---|
1 | KOTIK, M , ARCHELAS, A , WOHLGEMUTH, R , (2012) EPOXIDE HYDROLASES AND THEIR APPLICATION IN ORGANIC SYNTHESIS.CURRENT ORGANIC CHEMISTRY. VOL. 16. ISSUE 4. P. 451 -482 | 169 | 76% | 18 |
2 | BALA, N , CHIMNI, SS , (2010) RECENT DEVELOPMENTS IN THE ASYMMETRIC HYDROLYTIC RING OPENING OF EPOXIDES CATALYSED BY MICROBIAL EPOXIDE HYDROLASE.TETRAHEDRON-ASYMMETRY. VOL. 21. ISSUE 24. P. 2879 -2898 | 110 | 74% | 25 |
3 | SMIT, MS , LABUSCHAGNE, M , (2006) DIVERSITY OF EPOXIDE HYDROLASE BIOCATALYSTS.CURRENT ORGANIC CHEMISTRY. VOL. 10. ISSUE 10. P. 1145-1161 | 81 | 81% | 15 |
4 | WIDERSTEN, M , GURELL, A , LINDBERG, D , (2010) STRUCTURE-FUNCTION RELATIONSHIPS OF EPOXIDE HYDROLASES AND THEIR POTENTIAL USE IN BIOCATALYSIS.BIOCHIMICA ET BIOPHYSICA ACTA-GENERAL SUBJECTS. VOL. 1800. ISSUE 3. P. 316 -326 | 66 | 75% | 33 |
5 | CHOI, WJ , CHOI, CY , (2005) PRODUCTION OF CHIRAL EPOXIDES: EPOXIDE HYDROLASE-CATALYZED ENANTIOSELECTIVE HYDROLYSIS.BIOTECHNOLOGY AND BIOPROCESS ENGINEERING. VOL. 10. ISSUE 3. P. 167-179 | 63 | 88% | 32 |
6 | LEE, EY , SHULER, ML , (2007) MOLECULAR ENGINEERING OF EPOXIDE HYDROLASE AND ITS APPLICATION TO ASYMMETRIC AND ENANTIOCONVERGENT HYDROLYSIS.BIOTECHNOLOGY AND BIOENGINEERING. VOL. 98. ISSUE 2. P. 318-327 | 60 | 79% | 38 |
7 | CHOI, WJ , (2009) BIOTECHNOLOGICAL PRODUCTION OF ENANTIOPURE EPOXIDES BY ENZYMATIC KINETIC RESOLUTION.APPLIED MICROBIOLOGY AND BIOTECHNOLOGY. VOL. 84. ISSUE 2. P. 239 -247 | 57 | 77% | 34 |
8 | ZHU, QQ , HE, WH , KONG, XD , FAN, LQ , ZHAO, J , LI, SX , XU, JH , (2014) HETEROLOGOUS OVEREXPRESSION OF VIGNA RADIATA EPOXIDE HYDROLASE IN ESCHERICHIA COLI AND ITS CATALYTIC PERFORMANCE IN ENANTIOCONVERGENT HYDROLYSIS OF P-NITROSTYRENE OXIDE INTO (R)-P-NITROPHENYL GLYCOL.APPLIED MICROBIOLOGY AND BIOTECHNOLOGY. VOL. 98. ISSUE 1. P. 207-218 | 42 | 93% | 3 |
9 | SOLARES, LF , MATEO, C , (2013) IMPROVEMENT OF THE EPOXIDE HYDROLASE PROPERTIES FOR THE ENANTIOSELECTIVE HYDROLYSIS OF EPOXIDES.CURRENT ORGANIC CHEMISTRY. VOL. 17. ISSUE 7. P. 744-755 | 55 | 70% | 4 |
10 | STEINREIBER, A , FABER, K , (2001) MICROBIAL EPOXIDE HYDROLASES FOR PREPARATIVE BIOTRANSFORMATIONS.CURRENT OPINION IN BIOTECHNOLOGY. VOL. 12. ISSUE 6. P. 552 -558 | 48 | 94% | 130 |
Classes with closest relation at Level 1 |