PubMed:18353295
Annnotations
sentences
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| TextSentencer_T1 | 0-164 | Sentence | denotes | Production of lactose-free galacto-oligosaccharide mixtures: comparison of two cellobiose dehydrogenases for the selective oxidation of lactose to lactobionic acid. |
| TextSentencer_T2 | 165-397 | Sentence | denotes | Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using beta-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. |
| TextSentencer_T3 | 398-534 | Sentence | denotes | Most galacto-oligosaccharide preparations currently available in the market contain a significant amount of monosaccharides and lactose. |
| TextSentencer_T4 | 535-743 | Sentence | denotes | The mixture of galacto-oligosaccharides (GalOS) in this study produced from lactose using recombinant beta-galactosidase from Lactobacillus reuteri contains 48% monosaccharides, 26.5% lactose and 25.5% GalOS. |
| TextSentencer_T5 | 744-973 | Sentence | denotes | To remove efficiently both monosaccharides and lactose from this GalOS mixture containing significant amounts of prebiotic non-lactose disaccharides, a biocatalytic approach coupled with subsequent chromatographic steps was used. |
| TextSentencer_T6 | 974-1170 | Sentence | denotes | Lactose was first oxidised to lactobionic acid using fungal cellobiose dehydrogenases, and then lactobionic acid and monosaccharides were removed by ion-exchange and size-exclusion chromatography. |
| TextSentencer_T7 | 1171-1351 | Sentence | denotes | Two different cellobiose dehydrogenases (CDH), originating from Sclerotium rolfsii and Myriococcum thermophilum, were compared with respect to their applicability for this process. |
| TextSentencer_T8 | 1352-1518 | Sentence | denotes | CDH from S. rolfsii showed higher specificity for the substrate lactose, and only few other components of the GalOS mixture were oxidised during prolonged incubation. |
| TextSentencer_T9 | 1519-1753 | Sentence | denotes | Since these sugars were only converted once lactose oxidation was almost complete, careful control of the CDH-catalysed reaction will significantly reduce the undesired oxidation, and hence subsequent removal, of any GalOS components. |
| TextSentencer_T10 | 1754-1934 | Sentence | denotes | Removal of ions and monosaccharides by the chromatographic steps gave an essentially pure GalOS product, containing less than 0.3% lactose and monosaccharides, in a yield of 60.3%. |
| T1 | 0-164 | Sentence | denotes | Production of lactose-free galacto-oligosaccharide mixtures: comparison of two cellobiose dehydrogenases for the selective oxidation of lactose to lactobionic acid. |
| T2 | 165-397 | Sentence | denotes | Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using beta-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. |
| T3 | 398-534 | Sentence | denotes | Most galacto-oligosaccharide preparations currently available in the market contain a significant amount of monosaccharides and lactose. |
| T4 | 535-743 | Sentence | denotes | The mixture of galacto-oligosaccharides (GalOS) in this study produced from lactose using recombinant beta-galactosidase from Lactobacillus reuteri contains 48% monosaccharides, 26.5% lactose and 25.5% GalOS. |
| T5 | 744-973 | Sentence | denotes | To remove efficiently both monosaccharides and lactose from this GalOS mixture containing significant amounts of prebiotic non-lactose disaccharides, a biocatalytic approach coupled with subsequent chromatographic steps was used. |
| T6 | 974-1170 | Sentence | denotes | Lactose was first oxidised to lactobionic acid using fungal cellobiose dehydrogenases, and then lactobionic acid and monosaccharides were removed by ion-exchange and size-exclusion chromatography. |
| T7 | 1171-1351 | Sentence | denotes | Two different cellobiose dehydrogenases (CDH), originating from Sclerotium rolfsii and Myriococcum thermophilum, were compared with respect to their applicability for this process. |
| T8 | 1352-1518 | Sentence | denotes | CDH from S. rolfsii showed higher specificity for the substrate lactose, and only few other components of the GalOS mixture were oxidised during prolonged incubation. |
| T9 | 1519-1753 | Sentence | denotes | Since these sugars were only converted once lactose oxidation was almost complete, careful control of the CDH-catalysed reaction will significantly reduce the undesired oxidation, and hence subsequent removal, of any GalOS components. |
| T10 | 1754-1934 | Sentence | denotes | Removal of ions and monosaccharides by the chromatographic steps gave an essentially pure GalOS product, containing less than 0.3% lactose and monosaccharides, in a yield of 60.3%. |
mondo_disease
| Id | Subject | Object | Predicate | Lexical cue | mondo_id |
|---|---|---|---|---|---|
| T2 | 1352-1355 | Disease | denotes | CDH | http://purl.obolibrary.org/obo/MONDO_0005711 |
| T3 | 1625-1628 | Disease | denotes | CDH | http://purl.obolibrary.org/obo/MONDO_0005711 |
| T1 | 1212-1215 | Disease | denotes | CDH | http://purl.obolibrary.org/obo/MONDO_0005711 |
Glycan-GlyCosmos
| Id | Subject | Object | Predicate | Lexical cue | image |
|---|---|---|---|---|---|
| T1 | 14-21 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T2 | 79-89 | Glycan | denotes | cellobiose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G55560AP |
| T3 | 136-143 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T4 | 269-276 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T5 | 526-533 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T6 | 611-618 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T7 | 719-726 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T8 | 791-798 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T9 | 871-878 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T10 | 974-981 | Glycan | denotes | Lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T11 | 1034-1044 | Glycan | denotes | cellobiose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G55560AP |
| T12 | 1185-1195 | Glycan | denotes | cellobiose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G55560AP |
| T13 | 1416-1423 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T14 | 1563-1570 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T15 | 1885-1892 | Glycan | denotes | lactose | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
GlyCosmos15-MONDO
| Id | Subject | Object | Predicate | Lexical cue | mondo_id |
|---|---|---|---|---|---|
| T1 | 1212-1215 | Disease | denotes | CDH | http://purl.obolibrary.org/obo/MONDO_0005711 |
| T2 | 1352-1355 | Disease | denotes | CDH | http://purl.obolibrary.org/obo/MONDO_0005711 |
| T3 | 1625-1628 | Disease | denotes | CDH | http://purl.obolibrary.org/obo/MONDO_0005711 |
GlyCosmos15-NCBITAXON
| Id | Subject | Object | Predicate | Lexical cue | db_id |
|---|---|---|---|---|---|
| T1 | 661-682 | OrganismTaxon | denotes | Lactobacillus reuteri | 1598 |
| T2 | 1235-1253 | OrganismTaxon | denotes | Sclerotium rolfsii | 39291 |
| T3 | 1258-1282 | OrganismTaxon | denotes | Myriococcum thermophilum | 2588717 |
sentences
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| TextSentencer_T1 | 0-164 | Sentence | denotes | Production of lactose-free galacto-oligosaccharide mixtures: comparison of two cellobiose dehydrogenases for the selective oxidation of lactose to lactobionic acid. |
| TextSentencer_T2 | 165-397 | Sentence | denotes | Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using beta-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. |
| TextSentencer_T3 | 398-534 | Sentence | denotes | Most galacto-oligosaccharide preparations currently available in the market contain a significant amount of monosaccharides and lactose. |
| TextSentencer_T4 | 535-743 | Sentence | denotes | The mixture of galacto-oligosaccharides (GalOS) in this study produced from lactose using recombinant beta-galactosidase from Lactobacillus reuteri contains 48% monosaccharides, 26.5% lactose and 25.5% GalOS. |
| TextSentencer_T5 | 744-973 | Sentence | denotes | To remove efficiently both monosaccharides and lactose from this GalOS mixture containing significant amounts of prebiotic non-lactose disaccharides, a biocatalytic approach coupled with subsequent chromatographic steps was used. |
| TextSentencer_T6 | 974-1170 | Sentence | denotes | Lactose was first oxidised to lactobionic acid using fungal cellobiose dehydrogenases, and then lactobionic acid and monosaccharides were removed by ion-exchange and size-exclusion chromatography. |
| TextSentencer_T7 | 1171-1351 | Sentence | denotes | Two different cellobiose dehydrogenases (CDH), originating from Sclerotium rolfsii and Myriococcum thermophilum, were compared with respect to their applicability for this process. |
| TextSentencer_T8 | 1352-1518 | Sentence | denotes | CDH from S. rolfsii showed higher specificity for the substrate lactose, and only few other components of the GalOS mixture were oxidised during prolonged incubation. |
| TextSentencer_T9 | 1519-1753 | Sentence | denotes | Since these sugars were only converted once lactose oxidation was almost complete, careful control of the CDH-catalysed reaction will significantly reduce the undesired oxidation, and hence subsequent removal, of any GalOS components. |
| TextSentencer_T10 | 1754-1934 | Sentence | denotes | Removal of ions and monosaccharides by the chromatographic steps gave an essentially pure GalOS product, containing less than 0.3% lactose and monosaccharides, in a yield of 60.3%. |
| T1 | 0-164 | Sentence | denotes | Production of lactose-free galacto-oligosaccharide mixtures: comparison of two cellobiose dehydrogenases for the selective oxidation of lactose to lactobionic acid. |
| T2 | 165-397 | Sentence | denotes | Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using beta-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. |
| T3 | 398-534 | Sentence | denotes | Most galacto-oligosaccharide preparations currently available in the market contain a significant amount of monosaccharides and lactose. |
| T4 | 535-743 | Sentence | denotes | The mixture of galacto-oligosaccharides (GalOS) in this study produced from lactose using recombinant beta-galactosidase from Lactobacillus reuteri contains 48% monosaccharides, 26.5% lactose and 25.5% GalOS. |
| T5 | 744-973 | Sentence | denotes | To remove efficiently both monosaccharides and lactose from this GalOS mixture containing significant amounts of prebiotic non-lactose disaccharides, a biocatalytic approach coupled with subsequent chromatographic steps was used. |
| T6 | 974-1170 | Sentence | denotes | Lactose was first oxidised to lactobionic acid using fungal cellobiose dehydrogenases, and then lactobionic acid and monosaccharides were removed by ion-exchange and size-exclusion chromatography. |
| T7 | 1171-1351 | Sentence | denotes | Two different cellobiose dehydrogenases (CDH), originating from Sclerotium rolfsii and Myriococcum thermophilum, were compared with respect to their applicability for this process. |
| T8 | 1352-1518 | Sentence | denotes | CDH from S. rolfsii showed higher specificity for the substrate lactose, and only few other components of the GalOS mixture were oxidised during prolonged incubation. |
| T9 | 1519-1753 | Sentence | denotes | Since these sugars were only converted once lactose oxidation was almost complete, careful control of the CDH-catalysed reaction will significantly reduce the undesired oxidation, and hence subsequent removal, of any GalOS components. |
| T10 | 1754-1934 | Sentence | denotes | Removal of ions and monosaccharides by the chromatographic steps gave an essentially pure GalOS product, containing less than 0.3% lactose and monosaccharides, in a yield of 60.3%. |
GlyCosmos15-Sentences
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| T1 | 0-164 | Sentence | denotes | Production of lactose-free galacto-oligosaccharide mixtures: comparison of two cellobiose dehydrogenases for the selective oxidation of lactose to lactobionic acid. |
| T2 | 165-397 | Sentence | denotes | Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using beta-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. |
| T3 | 398-534 | Sentence | denotes | Most galacto-oligosaccharide preparations currently available in the market contain a significant amount of monosaccharides and lactose. |
| T4 | 535-743 | Sentence | denotes | The mixture of galacto-oligosaccharides (GalOS) in this study produced from lactose using recombinant beta-galactosidase from Lactobacillus reuteri contains 48% monosaccharides, 26.5% lactose and 25.5% GalOS. |
| T5 | 744-973 | Sentence | denotes | To remove efficiently both monosaccharides and lactose from this GalOS mixture containing significant amounts of prebiotic non-lactose disaccharides, a biocatalytic approach coupled with subsequent chromatographic steps was used. |
| T6 | 974-1170 | Sentence | denotes | Lactose was first oxidised to lactobionic acid using fungal cellobiose dehydrogenases, and then lactobionic acid and monosaccharides were removed by ion-exchange and size-exclusion chromatography. |
| T7 | 1171-1351 | Sentence | denotes | Two different cellobiose dehydrogenases (CDH), originating from Sclerotium rolfsii and Myriococcum thermophilum, were compared with respect to their applicability for this process. |
| T8 | 1352-1518 | Sentence | denotes | CDH from S. rolfsii showed higher specificity for the substrate lactose, and only few other components of the GalOS mixture were oxidised during prolonged incubation. |
| T9 | 1519-1753 | Sentence | denotes | Since these sugars were only converted once lactose oxidation was almost complete, careful control of the CDH-catalysed reaction will significantly reduce the undesired oxidation, and hence subsequent removal, of any GalOS components. |
| T10 | 1754-1934 | Sentence | denotes | Removal of ions and monosaccharides by the chromatographic steps gave an essentially pure GalOS product, containing less than 0.3% lactose and monosaccharides, in a yield of 60.3%. |
GlyCosmos15-Glycan
| Id | Subject | Object | Predicate | Lexical cue | glycosmos_id | image |
|---|---|---|---|---|---|---|
| T1 | 14-21 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T2 | 79-89 | Glycan | denotes | cellobiose | https://glycosmos.org/glycans/show/G55560AP | https://api.glycosmos.org/wurcs2image/latest/png/binary/G55560AP |
| T3 | 136-143 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T4 | 269-276 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T5 | 526-533 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T6 | 611-618 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T7 | 719-726 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T8 | 791-798 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T9 | 871-878 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T10 | 974-981 | Glycan | denotes | Lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T11 | 1034-1044 | Glycan | denotes | cellobiose | https://glycosmos.org/glycans/show/G55560AP | https://api.glycosmos.org/wurcs2image/latest/png/binary/G55560AP |
| T12 | 1185-1195 | Glycan | denotes | cellobiose | https://glycosmos.org/glycans/show/G55560AP | https://api.glycosmos.org/wurcs2image/latest/png/binary/G55560AP |
| T13 | 1416-1423 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T14 | 1563-1570 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
| T15 | 1885-1892 | Glycan | denotes | lactose | https://glycosmos.org/glycans/show/G15541SE | https://api.glycosmos.org/wurcs2image/latest/png/binary/G15541SE |
NCBITAXON
| Id | Subject | Object | Predicate | Lexical cue | db_id |
|---|---|---|---|---|---|
| T1 | 661-682 | OrganismTaxon | denotes | Lactobacillus reuteri | 1598 |
| T2 | 1235-1253 | OrganismTaxon | denotes | Sclerotium rolfsii | 39291 |
| T3 | 1258-1282 | OrganismTaxon | denotes | Myriococcum thermophilum | 2588717 |