Restore libraryCatalog

Author: AbeJellinek

Web of Science Tagged.js

@@ -103,6 +103,7 @@ const IMPORT_FIELD_MAP = {
 	issue: ['IS', 'SI'],
 	journalAbbreviation: ['JI', 'J9'],
 	language: ['LA', 'LS'],
+	libraryCatalog: ['FN'],
 	number: ['AR'],
 	numPages: ['PG'],
 	// BP: begin page
@@ -620,6 +621,7 @@ var testCases = [
 				"abstractNote": "Malic enzyme catalyzes the reversible oxidative decarboxylation of malate to pyruvate and CO(2). The Saccharomyces cerevisiae MAE1 gene encodes a mitochondrial malic enzyme whose proposed physiological roles are related to the oxidative, malate-decarboxylating reaction. Hitherto, the inability of pyruvate carboxylase-negative (Pyc(-)) S. cerevisiae strains to grow on glucose suggested that Mae1p cannot act as a pyruvate-carboxylating, anaplerotic enzyme. In this study, relocation of malic enzyme to the cytosol and creation of thermodynamically favorable conditions for pyruvate carboxylation by metabolic engineering, process design, and adaptive evolution, enabled malic enzyme to act as the sole anaplerotic enzyme in S. cerevisiae. The Escherichia coli NADH-dependent sfcA malic enzyme was expressed in a Pyc(-) S. cerevisiae background. When PDC2, a transcriptional regulator of pyruvate decarboxylase genes, was deleted to increase intracellular pyruvate levels and cells were grown under a CO(2) atmosphere to favor carboxylation, adaptive evolution yielded a strain that grew on glucose (specific growth rate, 0.06 +/- 0.01 h(-1)). Growth of the evolved strain was enabled by a single point mutation (Asp336Gly) that switched the cofactor preference of E. coli malic enzyme from NADH to NADPH. Consistently, cytosolic relocalization of the native Mae1p, which can use both NADH and NADPH, in a pyc1,2 Delta pdc2 Delta strain grown under a CO(2) atmosphere, also enabled slow-growth on glucose. Although growth rates of these strains are still low, the higher ATP efficiency of carboxylation via malic enzyme, compared to the pyruvate carboxylase pathway, may contribute to metabolic engineering of S. cerevisiae for anaerobic, high-yield C(4)-dicarboxylic acid production.",
 				"extra": "Web of Science ID: WOS:000286597100004",
 				"issue": "3",
+				"libraryCatalog": "Thomson Reuters Web of Knowledge",
 				"pages": "732-738",
 				"publicationTitle": "APPLIED AND ENVIRONMENTAL MICROBIOLOGY",
 				"volume": "77",
@@ -870,6 +872,7 @@ var testCases = [
 				"extra": "Web of Science ID: CABI:19982209000",
 				"issue": "2",
 				"language": "en",
+				"libraryCatalog": "Thomson Reuters Web of Knowledge",
 				"pages": "170",
 				"publicationTitle": "Veterinary Surgery",
 				"volume": "27",
@@ -946,6 +949,7 @@ var testCases = [
 				"issue": "247",
 				"journalAbbreviation": "Fiddlehead",
 				"language": "en",
+				"libraryCatalog": "Thomson Reuters Web of Knowledge",
 				"pages": "82-82",
 				"publicationTitle": "FIDDLEHEAD",
 				"attachments": [],
@@ -1010,6 +1014,7 @@ var testCases = [
 				"extra": "numPages: 13\npublisher: Annual Reviews\nWeb of Science ID: WOS:000290776200020",
 				"journalAbbreviation": "Annu. Rev. Public Health",
 				"language": "en",
+				"libraryCatalog": "Thomson Reuters Web of Knowledge",
 				"pages": "367-379",
 				"publicationTitle": "ANNUAL REVIEW OF PUBLIC HEALTH, VOL 32",
 				"series": "Annual Review of Public Health",
@@ -1134,6 +1139,7 @@ var testCases = [
 				"date": "2011",
 				"ISBN": "978-90-8585933-8",
 				"extra": "Web of Science ID: CABI:20113178956",
+				"libraryCatalog": "Thomson Reuters Web of Knowledge",
 				"attachments": [],
 				"tags": [],
 				"notes": [],
@@ -1231,6 +1237,7 @@ var testCases = [
 				"abstractNote": "Microbial processing of detritus is known to be important to benthic invertebrate nutrition, but the role of dissolved (DOC) versus particulate organic carbon (POC), and pathways by which those resources are obtained, are poorly understood. We used stable isotopes to determine the importance of DOC, POC, and CH4-derived carbon to benthic invertebrate consumers from arctic Alaskan Lakes. Intact sediment cores from Lake GTH 112 were enriched with C-13-labeled organic matter, including algal detritus, algal-derived DOC, methyl-labeled acetate, and carboxyl-labeled acetate, and incubated for 1 month with either caddisflies (Grensia praeterita ) or fingernail clams (Sphaerium nitidum), two invertebrate species that are important to fish nutrition. Both species used basal resources derived from POC and DOC. Results generally suggest greater reliance on POC. Differential assimilation from acetate treatments suggests Sphaerium assimilated CH4-derived carbon, which likely occurred through deposit-feeding. Grensia assimilated some microbially processed acetate, although its survivorship was poor in acetate treatments. Our data extend previous studies reporting use of CH4-derived carbon by Chironomidae and oligochaetes. Taken together, these results suggest that the use of CH4-derived carbon is common among deposit-feeding benthic invertebrates.",
 				"extra": "Web of Science ID: BCI:BCI201300112663",
 				"issue": "1",
+				"libraryCatalog": "Thomson Reuters Web of Knowledge",
 				"pages": "221-230",
 				"publicationTitle": "Hydrobiologia",
 				"volume": "700",
@@ -1291,6 +1298,7 @@ var testCases = [
 				"conferenceName": "7th International Conference on Advanced Communication Technology",
 				"extra": "numPages: 6\nWeb of Science ID: WOS:000230445900101\npubisher-palce: New York",
 				"language": "en",
+				"libraryCatalog": "Clarivate Analytics Web of Science",
 				"pages": "532-537",
 				"place": "Phoenix Pk, SOUTH KOREA",
 				"proceedingsTitle": "7TH INTERNATIONAL CONFERENCE ON ADVANCED COMMUNICATION TECHNOLOGY, VOLS 1 AND 2, PROCEEDINGS",