| Method | Records |
| 1H NMR | 31908 |
| 13C NMR | 30241 |
| NMR-2D | 15752 |
| HPLC | 15588 |
| extraction | 13656 |
| TLC | 11907 |
| acid hydrolysis | 10583 |
| methylation | 7957 |
| FAB-MS | 7591 |
| sugar analysis | 7585 |
| GC-MS | 6820 |
| ESI-MS | 6520 |
| UV | 6411 |
| IR | 6395 |
| column chromatography | 6393 |
| optical rotation measurement | 5877 |
| GLC | 5718 |
| enzymatic digestion | 4701 |
| SDS-PAGE | 4545 |
| gel filtration | 4541 |
| NMR | 4527 |
| genetic methods | 4264 |
| MALDI-TOF MS | 4099 |
| cell growth | 4085 |
| GLC-MS | 4045 |
| NMR-1D | 4002 |
| biological assays | 3663 |
| GPC | 3625 |
| DNA techniques | 3559 |
| ELISA | 3377 |
| evaporation | 3279 |
| mild acid hydrolysis | 3269 |
| Smith degradation | 3213 |
| HMBC | 3155 |
| GC | 3135 |
| serological methods | 3123 |
| 31P NMR | 3094 |
| centrifugation | 3070 |
| PCR | 2957 |
| COSY | 2949 |
| methylation analysis | 2923 |
| acetylation | 2783 |
| composition analysis | 2671 |
| alkaline hydrolysis | 2665 |
| partial acid hydrolysis | 2440 |
| chemical methods | 2357 |
| MS | 2247 |
| methanolysis | 2205 |
| statistical analysis | 2192 |
| Western blotting | 2145 |
| DNA sequencing | 1999 |
| chemical synthesis | 1993 |
| EI-MS | 1859 |
| HR-ESI-MS | 1814 |
| de-O-acetylation | 1744 |
| HR-FAB-MS | 1652 |
| paper chromatography | 1641 |
| periodate oxidation | 1597 |
| melting point determination | 1583 |
| HMQC | 1551 |
| reduction | 1530 |
| enzymatic hydrolysis | 1512 |
| bioinformatic analysis | 1467 |
| precipitation | 1450 |
| enzymatic assay | 1426 |
| HSQC | 1412 |
| derivatization | 1368 |
| LC-MS | 1320 |
| dialysis | 1303 |
| biochemical methods | 1292 |
| DEPT | 1210 |
| HF solvolysis | 1194 |
| NOESY | 1182 |
| RP-HPLC | 1168 |
| immunoblotting | 1103 |
| FTIR | 1073 |
| cytotoxicity assay | 995 |
| TOCSY | 991 |
| glycosylation | 938 |
| HCl hydrolysis | 928 |
| SEC | 911 |
| X-ray | 906 |
| MS/MS | 894 |
| conjugation | 893 |
| phenol-sulfuric acid assay | 884 |
| HPAEC-PAD | 859 |
| HPTLC | 859 |
| HPAEC | 825 |
| chemical analysis | 795 |
| ion-exchange chromatography | 783 |
| CD | 779 |
| CC | 773 |
| ROESY | 742 |
| HF treatment | 740 |
| deamination | 708 |
| de-O-acylation | 706 |
| fluorescent labeling with 2-aminopyridine | 700 |
| acetylation analysis | 689 |
| SEM | 672 |
| flow cytometry analysis | 671 |
| cloning | 665 |
| MALDI-MS | 663 |
| PC | 660 |
| acetolysis | 645 |
| paper electrophoresis | 635 |
| sonication | 608 |
| hydrazinolysis | 604 |
| dephosphorylation | 594 |
| function analysis of gene clusters | 592 |
| antifungal activity test | 592 |
| de-O-acylation with hydrazine | 572 |
| spectrophotometry | 568 |
| anion-exchange chromatography | 547 |
| ESI-MS/MS | 524 |
| CE-MS | 523 |
| immunization | 522 |
| microscopy | 507 |
| antibacterial assay | 504 |
| cytokine production | 504 |
| TFA hydrolysis | 499 |
| MPLC | 497 |
| CID-MS | 485 |
| NaBH4 reduction | 482 |
| ESI-FTICR-MS | 481 |
| HPLC-MS | 475 |
| HPGPC | 474 |
| alkaline degradation | 473 |
| radiolabeling | 466 |
| HR-EI-MS | 463 |
| HPSEC | 460 |
| reduction with NaBD4 | 458 |
| reduction with NaBH4 | 453 |
| MD simulations | 426 |
| affinity chromatography | 425 |
| antioxidant activities | 418 |
| mild acid degradation | 418 |
| permethylation | 413 |
| biological assay | 394 |
| HR-MAS NMR | 394 |
| phylogenetic analysis | 388 |
| RT-PCR | 388 |
| MTT | 388 |
| FACE | 388 |
| inhibition studies | 387 |
| HOHAHA | 382 |
| filtration | 380 |
| cell viability assay | 378 |
| electrophoresis | 378 |
| fluorescence microscopy | 371 |
| deacetylation | 370 |
| molecular modeling | 359 |
| CE-ESI-MS | 358 |
| CE | 354 |
| electron microscopy | 348 |
| ESI-TOF-MS | 347 |
| TEM | 346 |
| viscosity measurement | 345 |
| computer analysis with CASPER | 342 |
| antitumor activity assay | 338 |
| conformation analysis | 334 |
| genetic manipulations | 331 |
| hydrolysis | 330 |
| binding assays | 325 |
| LC-ESI-MS | 322 |
| enzyme assay | 315 |
| colorimetry | 315 |
| DQF-COSY | 313 |
| FT-IR | 312 |
| DOC-PAGE | 308 |
| enzymatic treatment | 300 |
| crystallization | 298 |
| determination of surface tension | 289 |
| optical density measurement | 286 |
| serotyping analysis | 286 |
| NOE | 283 |
| reduction with NaCNBH3 | 274 |
| PPC | 268 |
| ion exchange chromatography | 263 |
| FACS assay | 260 |
| MALDI-TOF | 259 |
| extraciton | 259 |
| macrophage activity assay | 257 |
| FD-MS | 256 |
| deacylation | 255 |
| kinetics assays | 254 |
| MALDI-TOF/TOF MS | 254 |
| gene expression | 251 |
| determination of NO production | 248 |
| flash chromatography | 247 |
| EIA | 247 |
| 2-aminobenzamine labelling | 246 |
| LC | 243 |
| ESI-QTOF-MS | 241 |
| elemental analysis | 240 |
| radioactivity measurement | 238 |
| trifluoroacetic acid solvolysis | 232 |
| enzymatic synthesis | 230 |
| trimethylsilylation | 228 |
| partial acetolysis | 226 |
| pyridylamination | 224 |
| fluorescence labeling | 223 |
| glycosyltransferase assays | 222 |
| de-N-acetylation/deamination | 221 |
| triflic acid solvolysis | 220 |
| genetic metods | 220 |
| HPLC-DAD | 219 |
| Southern blotting | 219 |
| fermentation | 217 |
| 2D paper chromatography | 215 |
| serotyping | 214 |
| antimicrobial assay | 212 |
| N-acetylation | 211 |
| HPLC-ELSD | 210 |
| HPLC-UV | 209 |
| CI-MS | 207 |
| BLAST | 202 |
| mutagenesis | 201 |
| MT: extraction | 200 |
| spectrometry | 200 |
| sulfuric acid hydrolysis | 198 |
| immunofluorescence microscopy | 197 |
| Li/ethylenediamine degradation | 194 |
| Bradford method | 194 |
| printed glycan array (PGA) analysis | 191 |
| LC-MS/MS | 190 |
| permethylation analysis | 190 |
| Lowry method | 186 |
| MALDI-TOF-MS | 185 |
| APCI-MS | 184 |
| AFM | 183 |
| VLC | 180 |
| phagocytosis assay | 179 |
| b-elimination | 177 |
| flow cytometry | 176 |
| DCI-MS | 176 |
| SI-MS | 175 |
| DNA cloning | 174 |
| STD NMR | 171 |
| phenol-water extraction | 171 |
| ESI-FT-MS | 170 |
| LC-UV | 168 |
| qRT-PCR | 166 |
| DNA extraction | 166 |
| RNA sequencing | 165 |
| HETCOR | 163 |
| alkaline methanolysis | 163 |
| glycan array analysis | 162 |
| immunofluorescence analyses | 161 |
| SPR | 160 |
| HRESIMS | 160 |
| chromatography | 157 |
| alkaline extraction | 157 |
| genome sequencing | 156 |
| HR-MS | 155 |
| confocal microscopy | 154 |
| de-N-acylation | 152 |
| RNA extraction | 149 |
| carboxyl reduction | 149 |
| radical scavenging assay | 147 |
| LSI-MS | 147 |
| PAGE | 144 |
| MLCCC | 142 |
| SDS-Tricine-PAGE | 142 |
| protein detection | 141 |
| PTLC | 139 |
| enzymatic depolymerization | 139 |
| GLC-EI-MS | 138 |
| isotopic labeling | 136 |
| immunocytochemical analyses | 134 |
| 15N NMR | 134 |
| alkaline deacylation | 133 |
| antiviral assay | 130 |
| HPLC-SEC | 130 |
| SEC-MALLS | 129 |
| surface plasmon resonance (SPR) | 129 |
| D/CIMS | 129 |
| amino acid analysis | 128 |
| partial solvolysis with anhydrous trifluoroacetic acid | 127 |
| sequencing | 127 |
| enzymatic degradation | 126 |
| gel chromatography | 124 |
| DEAE | 124 |
| ethanol precipitation | 122 |
| ESI-HR-MS | 120 |
| reverse-phase HPLC | 120 |
| Sevag method | 119 |
| anticancer activity assay | 119 |
| HRMS | 119 |
| immunochemical methods | 117 |
| Gerwig method | 116 |
| HSBC | 116 |
| FAB-MS/MS | 115 |
| part acid hydrolysis | 112 |
| de-N-acetylation with hydrazine | 112 |
| HF solvolysis; published polymerization frame was shifted for conformity with other records. | 112 |
| HPSEC-MALLS | 111 |
| fluorescence spectroscopy | 111 |
| anion exchange chromatography | 111 |
| delipidation | 109 |
| determination of absolute configuration | 108 |
| HPLC-ESI-MS | 107 |
| biosynthetic methods | 106 |
| hepatoprotective activity assay | 104 |
| mutation analysis | 104 |
| gene annotation | 103 |
| capillary electrophoresis | 102 |
| ECD | 102 |
| mild alkaline degradation | 102 |
| PMR | 101 |
| rheological study | 101 |
| phage characterization | 100 |
| gel immunoprecipitation | 100 |
| phage isolation | 99 |
| partial methanolysis | 98 |
| HF hydrolysis | 97 |
| staining | 96 |
| GC-FID | 96 |
| SEC-MALS | 95 |
| antibody binding | 95 |
| ROE | 95 |
| Fehling treatment | 95 |
| optical microscopy | 95 |
| Folin phenol reagent method | 94 |
| 1H-NMR | 94 |
| HILIC | 94 |
| DCCC | 94 |
| crystallography | 94 |
| oxidation | 94 |
| MALDI-TOF MS/MS | 93 |
| FAB-CAD-MS/MS | 91 |
| DFQ-COSY | 91 |
| lectin blotting | 90 |
| fluorescent labeling | 90 |
| mild hydrazinolysis | 89 |
| complex formation with Congo Red | 88 |
| reversed-phase chromatography | 88 |
| DNS method | 88 |
| monoclonal antibodies | 88 |
| biotinylation | 88 |
| gel permeation chromatography | 88 |
| LC-ESI-MS/MS | 88 |
| FPLC | 88 |
| immunological assays | 87 |
| immunofluorescence | 87 |
| molecular mechanics | 86 |
| SEC-HPLC | 86 |
| atomic force microscopy | 86 |
| DEPT-135 | 86 |
| 13C-NMR | 86 |
| mild alkaline hydrolysis | 83 |
| genome analysis | 83 |
| acid degradation | 82 |
| enzyme-assisted synthesis | 82 |
| transmission electron microscopy | 82 |
| reverse-phase silica gel column chromatography | 82 |
| cytokine analysis | 82 |
| HRESI-MS | 81 |
| splenocyte proliferation assay | 81 |
| CarbBuilder | 81 |
| enzymatic partial hydrolysis | 80 |
| LPLC | 80 |
| de-N-acelation | 80 |
| light microscopy | 80 |
| MALDI-TOF/MS | 80 |
| LC/ESI-MS | 80 |
| enzymatic transglucosylation | 80 |
| gene disruption | 79 |
| phage genome analysis | 79 |
| LR-FAB-MS | 79 |
| GS-MS | 78 |
| ultrafiltration | 77 |
| dynamic light scattering | 76 |
| CL-ELISA | 76 |
| sialylation | 76 |
| bioassay | 76 |
| ion chromatography | 75 |
| anti-inflammatory assays | 74 |
| hydrogenation | 74 |
| 2D NMR | 74 |
| light scattering | 73 |
| ozonolysis | 73 |
| analysis of genes | 72 |
| phage propagation | 72 |
| cytokine assay | 72 |
| nerve fiber production test | 72 |
| MALDI–TOF MS | 72 |
| phage sequencing | 72 |
| GC-EI-MS | 71 |
| ITC | 70 |
| opsonophagocytic assay | 69 |
| HPLC-MS/MS | 69 |
| HMQC-TOCSY | 68 |
| conjugatation | 68 |
| dealanylation | 67 |
| alkaline de-O-N-acylation | 67 |
| isolation | 67 |
| CID-MS/MS | 67 |
| ES-MS | 66 |
| UHPLC | 66 |
| sand fly infections | 66 |
| nOe | 66 |
| alkaline treatment | 66 |
| Congo red test | 66 |
| IEF | 66 |
| MR-2D | 66 |
| phage degradation | 66 |
| enzymatic analysis | 65 |
| antigen serology | 64 |
| amino acid sequence analysis | 64 |
| PR-HPLC | 63 |
| immunogenicity studies | 63 |
| photolysis | 63 |
| IR spectroscopy | 62 |
| phage depolymerisation | 62 |
| immunogenicity evaluation | 62 |
| HPAEC-PAD/CD | 62 |
| ESI-MS/CID-MS | 62 |
| HSQC-TOCSY | 61 |
| protein determination | 61 |
| fluorescece microscopy | 61 |
| toxicity assays | 61 |
| virulence assays | 60 |
| serum bactericidal assays | 60 |
| assay of polymyxin sensitivity | 60 |
| RP-MPLC | 59 |
| glycoengineering | 59 |
| serum adsorption assays | 58 |
| immunodiffusion assays | 58 |
| antifungal activity assay | 57 |
| gel electrophoresis | 57 |
| GC–MS | 57 |
| bioinformatic analysis (BLASTp) | 57 |
| hot water extraction | 56 |
| UPLC-MS/MS | 56 |
| anthrone-sulfuric acid assay | 56 |
| TLR4 activation assay | 56 |
| melting point measurement | 56 |
| BLASTp | 55 |
| acylation | 55 |
| immunomodulatory activity analysis | 55 |
| biological studies | 54 |
| HR-SI-MS | 54 |
| Congo red assay | 54 |
| alkali extraction | 54 |
| COLOC | 54 |
| ultracentrifugation | 53 |
| solvolysis | 53 |
| reductive amination | 53 |
| Orbitrap MS | 53 |
| thymocyte proliferation assay | 53 |
| ANOVA | 53 |
| slide-agglutination reaction | 52 |
| SANS | 52 |
| microarray binding assays | 51 |
| genetic engineering | 51 |
| saponification | 51 |
| peracetylation | 50 |
| data analysis | 50 |
| optical rotation | 50 |
| PD-MS | 50 |
| nitric oxide assay | 50 |
| UV-MALDI-TOF MS | 49 |
| phenol-sulfuric acid method | 49 |
| titration | 49 |
| uronic acid degradation | 49 |
| TEMPO oxidation | 49 |
| GC-CI-MS | 49 |
| cytostatic activity assay | 49 |
| PE | 49 |
| antibody production | 49 |
| enzymatic assays | 48 |
| cAMP phosphodiesterase assay | 48 |
| confocal scanning laser microscopy | 48 |
| ESI-TOF-MS/MS | 48 |
| ESI-FTICR-MS/MS | 48 |
| ESI-QTOF-MS/MS | 47 |
| 13C CPMAS NMR | 47 |
| gelation | 47 |
| molecular dynamics | 47 |
| desulfation | 46 |
| ROS measurement | 46 |
| CHARMM36 | 46 |
| chromium trioxide oxidation | 45 |
| fungal differentiation | 45 |
| linkage analysis | 45 |
| UV-vis | 45 |
| conformational analysis | 45 |
| Hakamori's method | 45 |
| immunohistochemistry | 45 |
| ammonolysis | 45 |
| histological analysis | 44 |
| HPTLC-ESI-MS | 44 |
| HCl methanolysis | 44 |
| protein expression | 43 |
| dot immunoblotting | 43 |
| DLS | 43 |
| oxidation with chromium trioxide | 43 |
| UPLC-PDA-ESI/Q-TOF/MS | 43 |
| Northern blotting | 43 |
| beta-elimination | 43 |
| optical rotation measuremen | 42 |
| centrifugal partition chromatography | 42 |
| phosphate measurement | 42 |
| silica gel chromatography | 42 |
| CE-ESI-MS/MS | 42 |
| reductive cleavage | 42 |
| COS | 42 |
| TCL | 42 |
| UPLC | 42 |
| carbazole method | 42 |
| murine vaccination | 42 |
| RP | 41 |
| gel filtration chromatography | 41 |
| Fab-MS | 41 |
| GMMA-technology | 40 |
| enzyme immunoassay | 40 |
| photosensitized oxydation | 40 |
| synthetic methods | 40 |
| UHPLC-DAD | 40 |
| Baeyer-Villiger oxidation | 40 |
| serum analysis | 40 |
| proliferation assay | 40 |
| borohydride reduction | 39 |
| UHPLC-ESI-HRMS | 39 |
| ESI-CID-MS/MS | 39 |
| bactericidal assays | 39 |
| cultivation | 39 |
| alkaline deamination | 39 |
| periodate oxydation | 39 |
| bacteriophage assays | 39 |
| MEKC | 38 |
| mild deamination | 38 |
| deproteination | 38 |
| antioxidant activity assay | 38 |
| cation-exchange chromatography | 38 |
| zeta potential measurement | 38 |
| HSEA | 38 |
| HP-SEC | 38 |
| 2D-NMR | 37 |
| differential interference contrast microscopy | 37 |
| Quellung reaction | 37 |
| CE-MS/MS | 37 |
| solvolysis with CF3CO2H | 37 |
| PCA | 37 |
| TGA | 36 |
| alkaline reductive hydrolysis | 36 |
| LCMS | 36 |
| antimalarial assays | 36 |
| PLS-DA | 36 |
| laser light scattering | 36 |
| de-N-O-acylation | 36 |
| chemical degradation | 35 |
| UV spectroscopy | 35 |
| HR ESI-TOF MS | 35 |
| biologic assays | 35 |
| DEPT NMR | 35 |
| topological information | 35 |
| lymphocyte proliferation assay | 35 |
| HPLC-APCI-MS | 35 |
| autoradiography | 35 |
| dynamic viscoelasticity measurement | 35 |
| kinetics assay | 35 |
| carbazole-sulfuric acid assay | 34 |
| ultrasonication | 34 |
| Ehrlich test | 34 |
| 13C-13C DARR NMR | 34 |
| inhibitory studies | 34 |
| size exclustion chromatography | 34 |
| absolute configuration determination | 34 |
| biofilm assays | 34 |
| water penetration scan technique | 33 |
| ESR | 33 |
| CAD-MS/MS | 33 |
| preparative paper chromatography | 33 |
| optical rotaion measurement | 33 |
| computational methods | 33 |
| adhesion assays | 33 |
| UPLC-ELSD | 33 |
| pyrogenicity assays | 33 |
| rheological measurements | 32 |
| 1H | 32 |
| bioconjugation | 32 |
| defructosylation | 32 |
| emulsifying activity determination | 32 |
| NaBD4 reduction | 32 |
| small-angle X-ray scattering (SAXS) | 32 |
| HRGC-MS | 32 |
| mmunoblotting | 32 |
| HPLC-RI | 31 |
| bioassays | 31 |
| enzymatic treatments | 31 |
| HPAE-HPLC | 31 |
| MAb studies | 31 |
| pharmacological assay | 31 |
| CAD | 31 |
| radioactivity assay | 31 |
| H NMR | 31 |
| HPTLC immunostaining | 31 |
| ESI-LTQ-FT-MS | 30 |
| SIMS | 30 |
| prediction | 30 |
| cell proliferation assay | 30 |
| pulsed-field gel electrophoresis (PFGE) | 30 |
| binding assay | 30 |
| optical rotation measument | 30 |
| Somogyi-Nelson method | 30 |
| acid and alkaline hydrolysis | 30 |
| HR-ESI-MS/MS | 30 |
| HPLC-UV MS | 30 |
| germination assay | 30 |
| analytical methods | 30 |
| acid hydrolysis in 2% acetic acid | 30 |
| phage depolymerization | 30 |
| single-step gene disruption | 29 |
| adherence assay | 29 |
| annotation | 29 |
| isolation of antibodies | 29 |
| DOSY | 29 |
| diazomethane degradation | 29 |
| HPSEC-MALLS/RI | 29 |
| partial hydrolysis | 29 |
| TNF-a assay | 28 |
| polarized optical microscopy | 28 |
| HPAE-PAD | 28 |
| LS-MS | 28 |
| motility assays | 28 |
| sulfation | 28 |
| differential scanning calorimetry (DSC) | 28 |
| 13C DPMAS NMR | 28 |
| nESI-QIT-MS | 28 |
| de-N-acetylation | 28 |
| PLC | 27 |
| phage infection inhibition assay | 27 |
| fluorescent staining of cell-wall | 27 |
| HIAX-HPLC | 27 |
| UHPLC-MS/MS | 27 |
| depolymerization by phage | 27 |
| solvolysis with anhydrous trifluoroacetic acid | 27 |
| UHPLC-MS | 27 |
| NO production | 27 |
| carboxymethylation | 27 |
| fluorescence binding assay | 27 |
| immunofluorescence labeling | 26 |
| LC/APCI-MS | 26 |
| nESI-CID-MS | 26 |
| mild methanolysis | 26 |
| partial depolymerization | 26 |
| measurement of cytokines | 26 |
| bioinformatics analysis | 26 |
| autolysis | 26 |
| Azure A assay | 26 |
| immunoelectron microscopy | 26 |
| MALDI-MS/MS | 26 |
| X-Ray | 26 |
| paper chromatograph | 26 |
| spectrofluorometry | 25 |
| MALDI-PSD MS | 25 |
| N-acylation | 25 |
| gel-filtration | 25 |
| complementation | 25 |
| fluorophore labeling | 25 |
| opsonophagocytosis assay | 25 |
| NaClO oxidation | 25 |
| x-ray | 25 |
| UV-VIS | 25 |
| Raman spectroscopy | 24 |
| partial alkaline hydrolysis | 24 |
| zymographic analysis | 24 |
| 13C-1H HMBC | 24 |
| 1D ROESY NMR | 24 |
| aqueous HF hydrolysis | 24 |
| depyruvation | 24 |
| fluorescent microscopy | 24 |
| NanoOrange assay | 24 |
| simulation convergence | 24 |
| acid hydrolysis with CF3CO2H | 24 |
| chemokine production | 24 |
| immunostaining | 24 |
| MALDI-LID-MS/MS | 24 |
| methylation (Hakomori method) | 24 |
| 13C-1H HSQC | 24 |
| GFC | 24 |
| nESI-MS/MS | 24 |
| statictical analysis | 24 |
| HPT-TEM | 24 |
| LC-MRM | 24 |
| post-simulation analysis | 24 |
| conjugation to tetanus toxoid | 24 |
| 2-D 1H-1H TOCSY | 24 |
| BLASTp analysis | 24 |
| HPTLC-MALDI-TOF/MS | 23 |
| nitrous deamination | 23 |
| optical rotation measurements | 23 |
| precipitin reaction | 23 |
| immunofluorescence analysis | 23 |
| iodine reacion | 23 |
| enzyme structure | 23 |
| hydrothermolysis | 23 |
| ethylation | 23 |
| Western blot | 23 |
| isomerization | 23 |
| ssNMR | 23 |
| insertion mutagenesis | 22 |
| HeLa cell invasion assays | 22 |
| UPLC-QTOF-MS | 22 |
| hot-water extraction | 22 |
| GHMBC | 22 |
| molecular docking | 22 |
| CG | 22 |
| EPR | 22 |
| typing | 22 |
| amino sugar analysis | 22 |
| methyaltion analysis | 22 |
| alkaline saponification | 22 |
| animal experiments | 22 |
| water extraction | 22 |
| HPLC-QTRAP-ESI-MS/MS | 22 |
| biological activity assays | 22 |
| 1H NR | 22 |
| GHSQC | 22 |
| acidic hydrolysis | 22 |
| 13C NMR analysis by GRASS | 22 |
| orcinol-sulfuric acid assay | 22 |
| defucosylation | 22 |
| isothermal titration calorimetry | 22 |
| autohydrolysis | 21 |
| hydrophobicity test | 21 |
| LC-ELSD | 21 |
| periodate oxidation analysis | 21 |
| butanolysis | 21 |
| Kjeldahl method | 21 |
| recrystallization | 21 |
| CHARMM-GUI Membrane Builder | 21 |
| surface tension determination | 21 |
| RPCC | 21 |
| phosphorylation | 21 |
| morphological analysis | 21 |
| thermogravimetric analysis | 21 |
| radiolabelling | 21 |
| SAXS | 21 |
| cloning plasmids | 21 |
| HMQC-NMR | 20 |
| HSQC-DEPT | 20 |
| isoelectric focusing | 20 |
| quantitative precipitin assay | 20 |
| LC-HRMS | 20 |
| MALLS | 20 |
| MD simulation | 20 |
| GC-EIMS | 20 |
| short-term precipitation | 20 |
| ion exchange column | 20 |
| IS-MS | 20 |
| bacterial classification | 20 |
| antibiotic assay | 20 |
| VIRIDIC analysis | 20 |
| flame photometry | 20 |
| GPC-MALLS | 20 |
| depyruvylation | 20 |
| colum chromatography | 20 |
| oxidative decarboxylation | 20 |
| sequence analysis | 19 |
| Hapten inhibition test | 19 |
| size-exclusion chromatography | 19 |
| nESI-QTOF-MS | 19 |
| LC-ESI-QTOF MS/MS | 19 |
| fractionation | 19 |
| sedimentation analysis | 19 |
| lithium degradation | 19 |
| protein immobilization | 19 |
| solid-phase synthesis | 19 |
| calorimetry | 19 |
| mild alkaline treatment | 19 |
| NMR 2D | 18 |
| Baeyer-Velliger oxidation | 18 |
| experiments on plants | 18 |
| alcohol precipitation | 18 |
| apoptosis assay | 18 |
| 32P NMR | 18 |
| ammonium oxalate extraction | 18 |
| FT-MS | 18 |
| enzyme digestion | 18 |
| MM3 force field | 18 |
| anti-inflammatory assay | 18 |
| DAI | 18 |
| slide agglutination reaction | 18 |
| acid methanolysis | 18 |
| enzymatic modification | 18 |
| PNGase F digestion | 18 |
| fast lipid analysis technique (FLAT) | 18 |
| NaNH4 reduction | 18 |
| XRD | 18 |
| alkali hydrolysis | 18 |
| hepatoprotective activity | 18 |
| DSC | 18 |
| LC-ESP-MS | 17 |
| LC-UV-MS | 17 |
| H2O2 degradation | 17 |
| HPLC/PDA/ESI-MS | 17 |
| alkaline borohydride treatment | 17 |
| biolayer interferometry (BLI) measurements | 17 |
| LC-CF-FAB-MS | 17 |
| HPLC-HR-ESI-MS | 17 |
| physical disruption of spores | 17 |
| LC-MSn | 17 |
| chemical extraction of integuments | 17 |
| API-MS | 17 |
| HRGC | 17 |
| 13C NMR analysis by GODDESS and GRASS | 17 |
| analytical procedures | 17 |
| partial acid degradation | 17 |
| FB-MS | 17 |
| nanoLC-MS/MS | 17 |
| autoclaving whole cells in citrate buffer | 17 |
| LC-MS-MS | 17 |
| FDNB determination of peptidoglycan cross-linking | 17 |
| solubilizing isolated cell wall fragments with pronase | 17 |
| ZIC-HILIC | 17 |
| HPLC/PDA/MS | 17 |
| tricine-SDS-PAGE | 17 |
| chemical extraction of dormant spores | 17 |
| SLS | 17 |
| ESI-IT-MS | 17 |
| quantitative precipitation assay | 17 |
| 13 C NMR | 17 |
| ESI-CID-MS | 17 |
| HPAE-PAD HPLC | 17 |
| colorimetric assays | 17 |
| LC-TSP-MS | 17 |
| chemoenzymatic synthesis | 17 |
| LC-1HNMR | 17 |
| HPLC-AEC | 16 |
| computer sequence analysis | 16 |
| 1H NMR 13C NMR | 16 |
| m-hydroxydiphenyl colorimetric method | 16 |
| tittration | 16 |
| high-performance anion-exchange chromatography | 16 |
| partial de-O-acylation | 16 |
| kinetic modeling | 16 |
| O-acetylation | 16 |
| size exclusion chromatography | 16 |
| CAD-MIKE-MS | 16 |
| NMR simulation | 16 |
| agglutination | 16 |
| DEA | 16 |
| antimicrobial peptide sensitivity assays | 16 |
| semi-empirical calculations | 16 |
| cell damage assay | 16 |
| enzymatic activity assay | 16 |
| immunoglycomics studies | 16 |
| zymolyase digestion | 16 |
| filtraion | 16 |
| immunoaffinity chromatography | 16 |
| hydrogenolysis | 16 |
| UHPLC-ESI-MS/MS | 16 |
| competition ssays | 16 |
| APT | 16 |
| quantumchemical calculations | 16 |
| optical | 16 |
| enzymatic hidrolysis | 16 |
| chemiluminescent ELISA | 16 |
| the Somogyi-Nelson method | 16 |
| opitcal rotation measurement | 16 |
| hot alkaline extraction | 16 |
| LR-ESI-MS | 16 |
| optical rotation determination | 15 |
| biochemical analysis | 15 |
| immunological procedures | 15 |
| antileishmanial assays | 15 |
| purpald assay measurement | 15 |
| ion-exchange column chromatography | 15 |
| pulse-labeling assay | 15 |
| 19F NMR | 15 |
| pyrolysis | 15 |
| reducing sugar assays | 15 |
| boiling water extraction | 15 |
| plant assays | 15 |
| biophysical methods | 15 |
| cytokines tumor necrosis factor alpha (TNF-a) assay | 15 |
| site-directed mutagenesis | 15 |
| HMQC-RELAY | 15 |
| HHCOSY | 15 |
| DIFNOE | 15 |
| phenol-sulphuric acid method | 15 |
| enzyme-linked lectin assay | 15 |
| phytotoxicity assay | 15 |
| lead tetraacetate oxidation | 15 |
| HPAEC-CD | 15 |
| complement assays | 15 |
| methylation assay | 15 |
| MALDI-FOF MS | 15 |
| boing the dried particles in 4% NaOH | 14 |
| anion-exchange HPLC | 14 |
| Me2SO extraction | 14 |
| UHPLC-UV-ESI-MS/MS | 14 |
| DQCOSY | 14 |
| statystical analysis | 14 |
| platelet aggregation assay | 14 |
| CTLC | 14 |
| INEPT | 14 |
| thermodynamics | 14 |
| hot water extraction at 80◦C | 14 |
| acid treatment | 14 |
| preculture preparation | 14 |
| Cetavlon treatment | 14 |
| HR-MALDI-MS | 14 |
| Shinoda test | 14 |
| CRISPR recombineering | 14 |
| mild alkali treatment | 14 |
| positive FAB-MS | 14 |
| plasmid analysis | 14 |
| turbidity measurement | 14 |
| UPLC-ESI-MS/MS | 14 |
| acetation analysis | 14 |
| LC/Q-TOF-MS | 14 |
| microarray analysis | 14 |
| Mayer test | 14 |
| capillary GLC | 14 |
| Salkowski test | 14 |
| ferric chloride test | 14 |
| analysis of gene | 14 |
| hot water extraction at 70◦C | 14 |
| bacteriophage digestion | 14 |
| foam test | 14 |
| hot water extraction at 90◦C | 14 |
| HR positive FAB-MS | 14 |
| soft agar assay | 14 |
| double distilled water extraction at 100◦C | 14 |
| limulus test | 14 |
| artificial neural network | 14 |
| crude glycerol analysis | 14 |
| boiling water combined with 5% NaOH extraction | 14 |
| FTICR-MS | 14 |
| ultrasound assisted extraction | 14 |
| antifungal assay | 14 |
| immunogenicity in mice | 14 |
| distilled water extraction | 14 |
| media composition | 14 |
| acid hydrolyssis | 13 |
| 2-D NOESY | 13 |
| purification | 13 |
| fluorescent staining | 13 |
| RECSY | 13 |
| hemolytic activity | 13 |
| GC-CIMS | 13 |
| radiography | 13 |
| SDS–PAGE | 13 |
| 3H NMR | 13 |
| aniline blue assay | 13 |
| sugar analyis | 13 |
| immunoreactivity assays | 13 |
| MALDI-FTICR MS | 13 |
| TIC | 13 |
| refractometry | 13 |
| TNF-a assays | 13 |
| 2-D TOCSY | 13 |
| IF | 13 |
| reductive | 13 |
| proteomics analysis | 13 |
| UPLC-QTOF-MS/MS | 13 |
| western blot | 13 |
| chromatofocusing | 13 |
| HREI-MS | 13 |
| LC−MS | 13 |
| MALDI-QIT-TOF | 13 |
| HPLC-RP | 13 |
| hapten inhibition test | 12 |
| western blotting | 12 |
| antiviral assays | 12 |
| monosaccharide analysis | 12 |
| AAS | 12 |
| cytotoxicity assays | 12 |
| HPLC-SEC/MALS | 12 |
| FAB-HR-MS | 12 |
| ISI-MS-MS | 12 |
| mild acidic hydrolysis | 12 |
| parasite treatment with chlorate | 12 |
| CF-FAB-MS | 12 |
| ZIC-HILIC-ESI-MS | 12 |
| convergence | 12 |
| small-angle neutron scattering (SANS) | 12 |
| ELSD | 12 |
| SO3-pyridine sulfation | 12 |
| competition assays | 12 |
| NI-FAB-MS | 12 |
| glycolipid | 12 |
| 13 CNMR | 12 |
| neutron scattering analysis | 12 |
| inductively coupled plasma MS | 12 |
| Marker's degradation | 12 |
| enzyme-linked plate assay | 12 |
| glass-fiber paper electrophoresis; PAGE | 12 |
| 1H ESI-TOF-MS | 12 |
| 2D-TLC | 12 |
| fluorescence analysis of antibody-polysaccharide complex | 12 |
| cellulose acetate membrane electrophoresis | 12 |
| USANS | 12 |
| HPLC-PDA | 12 |
| ESI-LTQ-FT IRMPD MS/MS | 12 |
| FRAP assay | 12 |
| PGC-LC-ESI-MS | 12 |
| LCI-MS | 12 |
| Northern analysis | 12 |
| RNA analysis | 12 |
| WHC | 12 |
| herbicide activity | 12 |
| HPLC-HRMS | 12 |
| conglutination test | 12 |
| alcoholic alkali metal degradation | 12 |
| hemolysis activity | 12 |
| enzyme assays | 12 |
| passive hemagglutination | 12 |
| acid extraction | 12 |
| anti-complement activity | 12 |
| reductive beta-elimination | 12 |
| mAb epitope mapping | 12 |
| ptical rotation measurement | 12 |
| infection assays of HL-1 cells | 12 |
| 2D DQF COSY | 12 |
| ESI-LTQ CID MS/MS/MS | 12 |
| fluorometry | 12 |
| glucanase degradation | 12 |
| hypoglycemic activity assay | 12 |
| UPLC-HR-ESI-MS | 12 |
| enzyme inhibition assay | 12 |
| 2D-TOCSY | 12 |
| ICP-MS | 12 |
| preparative paper electrophoresis | 11 |
| gas chromatography | 11 |
| Monte Carlo simulations | 11 |
| optical rotaiton measurement | 11 |
| binding of heavy metal cations to polysaccharide | 11 |
| yogurt production | 11 |
| UPLC/PDA/ESI-Q-TOF/MS | 11 |
| D/CI-MS | 11 |
| antibody precipitation | 11 |
| quantification of O-acetylation | 11 |
| H2BC | 11 |
| phenol–sulfuric acid assay | 11 |
| CE-LIFD | 11 |
| hybridoma selection | 11 |
| zone electrophoresis | 11 |
| PHNOESY | 11 |
| microarray chips | 11 |
| affinity assay | 11 |
| biologic assay | 11 |
| DGF-COSY | 11 |
| DQFCOSY | 11 |
| HCL hydrolysis | 11 |
| AE-PAD | 11 |
| in vivo labeling | 11 |
| vaccination | 11 |
| REDOR NMR | 11 |
| synthesis | 11 |
| HPLC-ESI-MS/MS | 11 |
| substrate binding | 11 |
| yogurt quality evaluation | 11 |
| CHARMM program | 11 |
| immunoprecipitation assay | 11 |
| gel-filtration chromatography | 11 |
| CIMS MS | 10 |
| column cromatography | 10 |
| meliting point determination | 10 |
| cathalytic reduction | 10 |
| opticatl rotation measurements | 10 |
| sulfate analysis | 10 |
| melting point deteremination | 10 |
| PMF | 10 |
| microcalorimetry | 10 |
| 2D-PC | 10 |
| column chromatographic | 10 |
| IR-MALDI-TOF MS | 10 |
| anti-inflammation assay | 10 |
| HRAEC | 10 |
| permanganate oxidation | 10 |
| anticoagulation activity | 10 |
| fluorescence-activated cell sorter analysis | 10 |
| glucokinase activity assay | 10 |
| LC-APCI-MS/MS | 10 |
| liquid chromatography | 10 |
| HCl treatment | 10 |
| inhibited ELISA | 10 |
| PCD oxidation | 10 |
| hemagglutination | 10 |
| chemical syhtnesis | 10 |
| phylogenetic analysis1H NMR | 10 |
| HSQC HSQC–TOCSY | 10 |
| glucose output test | 10 |
| FTIR-ATR | 10 |
| MIC determination | 10 |
| HILIC-MS | 10 |
| dot enzyme assay | 10 |
| LRAEC | 10 |
| de-N-formylation | 10 |
| GOESY | 10 |
| immunological studies | 10 |
| CLC | 10 |
| predation assay | 10 |
| HR-MALDI-TOF | 10 |
| optical rotaiton measurements | 10 |
| enzymatic deacetylation | 10 |
| LC–MS | 10 |
| 13 NMR | 10 |
| MS-MS | 10 |
| LC/MS | 10 |
| GC-qMS | 10 |
| CSD-MS | 10 |
| radical reduction assay | 10 |
| thiolylic cleavage | 10 |
| 13C | 10 |
| gravimetric measurement | 10 |
| HPLC-QTOF-MS | 9 |
| generation of reactive oxygen species (ROS) | 9 |
| glycosylations | 9 |
| depolymerization | 9 |
| CI/D-MS | 9 |
| surface-enhanced Raman scattering (SERS) | 9 |
| protease treatment | 9 |
| NMR analysis by GODDESS and GRASS | 9 |
| animal model | 9 |
| anti-biofilm activity assay | 9 |
| CID MS/MS | 9 |
| inhibition assays | 9 |
| TSP-MS | 9 |
| SEC-LLS | 9 |
| denaturation | 9 |
| LC/IT-TOF-MS | 9 |
| HR-CI-MS | 9 |
| GС | 9 |
| Blumenkrantz method | 9 |
| XPS | 9 |
| adhesive activity | 9 |
| thin-layer chromatography | 9 |
| human samples | 9 |
| solvolysis with trifluoroacetic acid | 9 |
| thermal analysis | 9 |
| labeling | 9 |
| GC-FTIR | 9 |
| cell stimulations | 9 |
| column chromotography | 9 |
| LC-FAB-MS | 9 |
| MPCC | 9 |
| Kaptive Web analysis | 9 |
| nodulation tests | 9 |
| atherosclerotic lesion assessment | 9 |
| NH3 hydrolysis | 9 |
| enzymatic dugestion | 9 |
| chemical synthesis methods | 9 |
| CF3CO2H solvolysis | 9 |
| BCA method | 9 |
| optivcal rotaion measurement | 9 |
| ESI-LC-MS | 9 |
| fluorescence spectrophotometry | 9 |
| phosphodiesterase assay | 9 |
| MALDI | 9 |
| RT-qPCR | 9 |
| phenol/sulphuric acid method of Dubois | 9 |
| HPLC-NMR-MS | 9 |
| CE-LIF | 9 |
| Agar diffusion test | 9 |
| precipitation assay | 9 |
| HILIC-ESI-MS | 9 |
| methyaltion | 8 |
| chemical procedures | 8 |
| phenotypic assays | 8 |
| esterification | 8 |
| DAS-ELISA | 8 |
| FRET | 8 |
| hepatoprotective assay | 8 |
| enzymatic methods | 8 |
| molecular modelling | 8 |
| mutant generation | 8 |
| CD spectroscopy | 8 |
| acetic hydrolysis | 8 |
| HRPLC | 8 |
| quantitative microscopy | 8 |
| cytokines assay | 8 |
| de-N-acylation/deamination | 8 |
| spore germination | 8 |
| automated Edman degradation | 8 |
| HPLC–MS | 8 |
| DBU treatment | 8 |
| macrophage production | 8 |
| chiral LC-MS | 8 |
| extra | 8 |
| computational docking | 8 |
| UPLC-DAD/MS | 8 |
| ethylation analysis | 8 |
| elicitor assay | 8 |
| MLCC | 8 |
| mild acetolysis | 8 |
| statisitical analysis | 8 |
| micromethod of Ghuysen | 8 |
| HPCE | 8 |
| square-wave voltammetry | 8 |
| SEC-MALLS-RI | 8 |
| chemoenzymatic modifications | 8 |
| fast protein chromatography | 8 |
| electrochemical impedance spectroscopy | 8 |
| method of McClare | 8 |
| vaccine immunogenicity | 8 |
| HPAEC-MS | 8 |
| chemical modification | 8 |
| SELDI-TOF MS | 8 |
| HPLC/MS | 8 |
| LD-MS | 8 |
| alkaline reduction | 8 |
| optical ortation measurements | 8 |
| mehtanolysis | 8 |
| trypsinolysis | 8 |
| nLC-MS/MS | 8 |
| immuno-transmission electron microscopy | 8 |
| cis-glycosylation | 8 |
| precipitin-inhibition test | 8 |
| Helferich glycosylation | 8 |
| SDS treatment | 8 |
| HEK-Blue cells stimulation assays | 8 |
| chiral HPLC | 8 |
| API-LC/MS/MS | 8 |
| bromine oxidation | 8 |
| microbiological techniques | 8 |
| strong alkaline hydrolysis | 8 |
| apoptosis assays | 8 |
| reduction of peptidoglycan fragments | 8 |
| formic acid hydrolysis | 8 |
| NIR | 8 |
| microextraction | 8 |
| phenol sulfuric acid method | 8 |
| HSQCM | 8 |
| total hydrolysis | 8 |
| de-N-O-acetylation | 8 |
| mathylation analysis | 8 |
| autoclaving in sodium citrate buffer | 8 |
| insecticidal activity | 8 |
| computer analysis with Sparky | 8 |
| anthrone method | 8 |
| NBS oxidation | 8 |
| genome BLAST analysis | 8 |
| solubility assays | 7 |
| proteolysis | 7 |
| synthetic procedures | 7 |
| GLC-FID | 7 |
| cell surface hydrophobicity | 7 |
| docking studies | 7 |
| LR-MS | 7 |
| MAS-DNP | 7 |
| FAM-MS | 7 |
| alkaline de-N-acylation | 7 |
| capillary viscosimetry | 7 |
| immunostimulatory activity analysis | 7 |
| transcription analysis | 7 |
| hydroxyethylation | 7 |
| flow filtration | 7 |
| TLC immunostaining | 7 |
| trifluoroacetolysis | 7 |
| optical rotataion measurement | 7 |
| SEC-TDA | 7 |
| complement (C3) assay | 7 |
| Edman degradation | 7 |
| melting point determinationmethylation (Hakomori method) | 7 |
| emulsification capacity determination | 7 |
| ICP-AES | 7 |
| CIMS | 7 |
| adsorption assays | 7 |
| antigen presentation by BMDCs | 7 |
| enzymatic hyldrolysis | 7 |
| enzyme kinetic assay | 7 |
| docking | 7 |
| gamma irradiation | 7 |
| UV EI-MS | 7 |
| 2D-HOHAHA | 7 |
| insertional mutagenesis | 7 |
| cathalytic reduciton | 7 |
| optical rotattion measurement | 7 |
| expression | 7 |
| viscometry | 7 |
| extration | 7 |
| HRFABMS | 7 |
| LFIA | 7 |
| taxonomy studies | 7 |
| genetic engineering CRISPR-Cas9 | 7 |
| 2-aminobenzoic acid labelling | 7 |
| immunofluorescent labelling | 7 |
| passive immunohemolysis (PIH) | 7 |
| NMR-1 | 7 |
| TLC-immunostaining | 7 |
| optical rotatin measurement | 7 |
| chemical metods | 7 |
| screening for vancomycin resistance | 7 |
| lipid extraction | 7 |
| viscosity measurements | 7 |
| RP-UPLC | 7 |
| HT-PMP | 7 |
| akaline hydrolysis | 7 |
| self-assembling assay | 7 |
| MALS | 6 |
| 13C NNR | 6 |
| carbodiimide reduction | 6 |
| SE-HPLC | 6 |
| column choromatography | 6 |
| HMAC | 6 |
| DFT computations | 6 |
| literature data mining | 6 |
| voltammetry | 6 |
| DNSA method | 6 |
| immunocytochemistry | 6 |
| acrtylation | 6 |
| Northern blot | 6 |
| microbead force spectroscopy | 6 |
| GF | 6 |
| phage adsorption inhibition test | 6 |
| antifouling assay | 6 |
| ESI-CAD-MS | 6 |
| BATH assay | 6 |
| ESI-MS-MS GC-MS | 6 |
| sulfuric acid methanolysis | 6 |
| in vivo and in vitro labeling | 6 |
| conductance measurment | 6 |
| Heynz and Lenz method | 6 |
| radioactive labeling | 6 |
| SDS-Glycine-PAGE | 6 |
| X-ray diffraction | 6 |
| plasma membrane potential | 6 |
| LC–ESI-MS/MS | 6 |
| symbiont titers assays | 6 |
| NMR-3D | 6 |
| cytological analyses | 6 |
| PDI-MS | 6 |
| centrifugation in sucrose densirty gradient | 6 |
| immunoafinity chromatography | 6 |
| auxin assay | 6 |
| extrinsic labelling | 6 |
| Column chromatography | 6 |
| alkylation | 6 |
| high-throughput screening | 6 |
| SDS-PAGE/autoradiography | 6 |
| antiulcer tests | 6 |
| HPLC-NMR | 6 |
| invertase treatment | 6 |
| FABMS | 6 |
| NO assay | 6 |
| fluorometric titration | 6 |
| antioxidation activities | 6 |
| reduction with LiBDEt3 | 6 |
| leaf-movement assay | 6 |
| 1H ssNMR | 6 |
| statistical analysis (ANOVA) | 6 |
| partial hydrolysis with oxalic acid | 6 |
| Ames test | 6 |
| INAPT | 6 |
| reductive β-elimination | 6 |
| N-deformylation | 6 |
| optical rotaton measurement | 6 |
| UPLC-MS | 6 |
| DTG | 6 |
| ssNMR-2D | 6 |
| HILIC-HPLC-UV | 6 |
| computation with CICADA | 6 |
| DEAEC | 6 |
| lysozyme treatment | 6 |
| vacuum ultraviolet CD | 6 |
| C13 NMR | 6 |
| SRC | 6 |
| extraction with snailase | 6 |
| immunological methods | 6 |
| taste analysis | 6 |
| fluorescent RT-PCR | 6 |
| ioptical rotaion measurement | 6 |
| culture conditions | 6 |
| dansylation | 6 |
| GLC-GPC | 6 |
| static light scattering | 6 |
| ESIMS | 6 |
| intrinsic viscosity measurement | 6 |
| LCMS-ESI | 6 |
| NMR-2D NMR | 6 |
| FESEM | 6 |
| tsetse fly infections | 6 |
| ultrasonic degradation | 6 |
| spore production | 6 |
| parasites examined | 6 |
| fungicidal activity assay | 6 |
| Ciucanu/Kerek methylation | 6 |
| glucose oxidase method | 6 |
| resorcinol method of Jourdian | 6 |
| HR-TOF-MS | 6 |
| NMr-2D | 6 |
| transesterification | 6 |
| 1H COSY | 6 |
| immunobiology | 6 |
| multilocus sequence typing | 6 |
| fluorescent labelled antibodies | 6 |
| method of Hewitt | 6 |
| micellar electrokinetic chromatography | 6 |
| histochemical assay | 6 |
| GLC–MS | 6 |
| extractin | 6 |
| INADEQUATE | 6 |
| kps sequence analysis | 6 |
| In vivo K. pneumoniae infection model | 6 |
| reductive elimination | 6 |
| glycoside formation assay | 6 |
| phenol-sulfuric acid assays | 6 |
| EIMS | 6 |
| FAB MS | 6 |
| Neutral-red test | 6 |
| opsonization assay | 5 |
| hydrophobic interaction chromatography | 5 |
| function analysis of gene cluster | 5 |
| bacteriophage degradation | 5 |
| iodine oxidation | 5 |
| reetherification | 5 |
| histology | 5 |
| macrophage infection assays | 5 |
| HPAC-PAD | 5 |
| SDS sensitivity testing | 5 |
| phenol-sulfuric acid procedure | 5 |
| oxidative stress | 5 |
| antitumor activity In vitro | 5 |
| enzyme sensitivity assays | 5 |
| chicken vaccination | 5 |
| immunogenicity studies in mice | 5 |
| emulsifying activity measurement | 5 |
| tryptic digestion | 5 |
| metal adsorption assays | 5 |
| TLCESI-MS | 5 |
| hemocytometry | 5 |
| Rocket immunoelectrophoresis | 5 |
| SRM-MS | 5 |
| N-deformylation/N-trideuterioacetylation | 5 |
| metabolic assay | 5 |
| PNGase A treatment | 5 |
| TNF-α assay | 5 |
| HR-SIMS | 5 |
| tumor cell growth inhibition sssays | 5 |
| DNA polymerase inhibitor (IC50 0.6 μM) | 5 |
| ultrasonic treatment | 5 |
| TLR-4 signaling assays | 5 |
| optica rotation measurement | 5 |
| enzymatic glucosylation | 5 |
| immunofluorescence staining | 5 |
| HR-MALDI-TOF MS | 5 |
| luciferase assays | 5 |
| weak acid hydrolysis | 5 |
| HIV-1-RT inhibitor (IC50 3.9 μM) | 5 |
| alkali extrnction | 5 |
| IMS-MS/MS | 5 |
| sequential degradation procedure | 5 |
| reverse transcription | 5 |
| PMF calculations | 5 |
| TLS | 5 |
| Taylor-Conrad reduction | 5 |
| chain flexibility | 5 |
| interleukin-6 assay | 5 |
| MALDI-CID-TOF/TOF MS/MS | 5 |
| Bradford methods | 5 |
| proliferation inhibitory assay | 5 |
| HLC | 5 |
| β-elimination | 5 |
| inhibitory action assay | 5 |
| DFT calculations | 5 |
| Johnson procedure | 5 |
| antibody sequence analyses | 5 |
| UDP-GlcA decarboxylase assay | 5 |
| SDS hypersensitivity test | 5 |
| FT Raman spectroscopy | 5 |
| light scattering analysis | 5 |
| 1D NMR | 5 |
| mild acid hydroysis | 5 |
| antutumor activity assay | 5 |
| desoxalylation | 5 |
| ES-MS-MS | 5 |
| complex formation with Congo red | 5 |
| in vivo Labeling | 5 |
| UV–vis | 5 |
| CDAP-cyanylation | 5 |
| columnn chromaotgraphy | 5 |
| DNA polymerase inhibitor | 5 |
| analysis of gut microbiota | 5 |
| peracetylation analysis | 5 |
| wound healing assay | 5 |
| phage assay | 5 |
| morphometry | 5 |
| column chromatograhy | 5 |
| toluylation | 5 |
| novobiocin sensitivity testing | 5 |
| metylation analysis | 5 |
| GC-MSM HPLC | 5 |
| enzymatic polymerization | 5 |
| HIV-1-RT inhibitor (IC50 0.05 μM) | 5 |
| bactericidal activity assay | 5 |
| Smith - de Mayo degradation | 5 |
| acetylaion | 5 |
| IMAC | 5 |
| anthracenone-vitriol method | 5 |
| optical rotation measuremnt | 5 |
| HPAED-PAD | 5 |
| antioxidant activity test | 5 |
| AF4MALS-dRI | 5 |
| STD-NMR | 5 |
| gHSQC-TOCSY | 5 |
| quantification | 5 |
| radiochemical analysis | 5 |
| Fehling precipitation | 5 |
| vaccine formulations | 5 |
| HPIC | 5 |
| HIV-1-RT inhibitor (IC50 43 μM) | 5 |
| gel electrofocusing | 5 |
| ioc-exchange chromatography | 5 |
| inhibitor of HIV-1 cytopathogenity exhibiting cytotoxicity | 5 |
| HPCL | 5 |
| co-aggregation assay | 5 |
| partial acid degradation followed by acetolysis under mild conditions | 5 |
| b-galactosidase digestion | 5 |
| HPSEC-MALS | 5 |
| preparative isoelectric focusing | 5 |
| lectin affinity chromatography | 5 |
| analysis of bacteriophage morphology | 4 |
| lysis assay | 4 |
| RLCC | 4 |
| mild acid hydrolysismethylation | 4 |
| antinociception assay | 4 |
| desialylation | 4 |
| proliferative responses of peripheral mononuclear cells to mitogen | 4 |
| Anion-exchange chromatography | 4 |
| flow citometry | 4 |
| gel electrophorsis | 4 |
| fluorescense spectroscopy | 4 |
| electrotransformation | 4 |
| construction of plasmid | 4 |
| radical scavenging assays | 4 |
| lactamization with hydrazine acetate | 4 |
| OHC | 4 |
| phage genome annotation | 4 |
| HEK-Blue cell cultures | 4 |
| photo-epimerization | 4 |
| fluorophore-assisted carbohydrate electrophoresis | 4 |
| ESI-TOF/MS | 4 |
| COSY-45 | 4 |
| Hakamori method | 4 |
| ion exchange column chromatography | 4 |
| genome annotation | 4 |
| osmium tetroxide oxidation | 4 |
| EDX analysis | 4 |
| WSI | 4 |
| partical acid hydrolysis | 4 |
| HRFAB-MS | 4 |
| Southern blot | 4 |
| qPCR | 4 |
| reduction analysis | 4 |
| MALDI-QTOF MS/MS | 4 |
| Kiliani hydrolysis | 4 |
| resistance to antibiotics | 4 |
| FTIR-MS | 4 |
| MIKE | 4 |
| 13С NMR | 4 |
| 1H NMr | 4 |
| SEC-NMR-IR | 4 |
| molluscicidal assay | 4 |
| mutation | 4 |
| ESI-IT-TOF-MS/MS | 4 |
| intrinsic viscosity measurements | 4 |
| recombination analysis | 4 |
| scaffold analysis | 4 |
| gradient elution | 4 |
| analysis of the bacteriophages adsorption | 4 |
| 13C-1H-HMBC | 4 |
| viscometry measurement | 4 |
| cell invasion assay | 4 |
| ouchterlony agar diffusion | 4 |
| EED-FT-ICR MS/MS | 4 |
| SFC-CAD | 4 |
| gHSQC | 4 |
| interleukin-1 assay | 4 |
| acid hydrazinolysis | 4 |
| F127-polysaccharides gels preparation | 4 |
| the Shaffer-Somogyi method | 4 |
| FAME GC-FID | 4 |
| NaClO2 oxidation | 4 |
| MALD-MS | 4 |
| MALDI-TOF HRMS | 4 |
| FeSO4/ascorbic acid(Vc)/H2O2 degradation | 4 |
| periodate treatment | 4 |
| cells proliferation assay | 4 |
| immobilization | 4 |
| 2D COSYDQF | 4 |
| production | 4 |
| ESI-LIT-MS | 4 |
| dyalysis | 4 |
| LC–MS/MS | 4 |
| gene knockin | 4 |
| FLAT MS | 4 |
| O-deacetylation | 4 |
| blotting | 4 |
| an enhanced release of cytokines (IL-1 and TNF) and induction of phagocytic activity og neutrophils and macrophages | 4 |
| serum resistance assay | 4 |
| nitrite production assay | 4 |
| 13C-1H-HSQC | 4 |
| densitometry | 4 |
| UV-Vis | 4 |
| HPLC-ESIHRFTMS | 4 |
| succinylation | 4 |
| exciton chiral coupling | 4 |
| pinocytosis assay | 4 |
| dispersion method | 4 |
| inflammasome activation assays | 4 |
| HSQS | 4 |
| LR-CI-MS | 4 |
| aid hydrolysis | 4 |
| isopropylidenation | 4 |
| IRMPD-MS | 4 |
| trimethylsilyation | 4 |
| selective hydrazinolysis | 4 |
| oprical rotation measurement | 4 |
| TOF-MALDI | 4 |
| chymotrypsin digestion | 4 |
| sulfonation | 4 |
| immunological assay | 4 |
| proteinase K digestion | 4 |
| bacteriophage characterization | 4 |
| 2-D 1H-1H-TOCSY | 4 |
| peptide sequencing | 4 |
| bacterial adhesion to Caco-2 cells | 4 |
| fluorescence detection | 4 |
| Haemolysis assay | 4 |
| cryo-TEM | 4 |
| glycoarray | 4 |
| metabolomics analysis | 4 |
| antidiabetic activity | 4 |
| antinociceptive action assay | 4 |
| modified Horeau's method | 4 |
| propidium iodide staining | 4 |
| radio labeling | 4 |
| DBA-2.MC.CS-1 fibrosarcoma and autochthonous primary tumors; increased natural killer cell activity | 4 |
| lactate dehydrogenase activity | 4 |
| MALDI-QTOF MS | 4 |
| rheological analysis | 4 |
| 13P NMR | 4 |
| GC-MS FAME | 4 |
| hydrochloric acid hydrolysis | 4 |
| antihelmintic activity assay | 4 |
| antitumor activity against sarcoma 180 | 4 |
| molecular morphology | 4 |
| immunodetection | 4 |
| partial and complete deacetylation | 4 |
| X-ray crystallography | 4 |
| HPLC-TOF-MS | 4 |
| protein expression purification | 4 |
| CI/IE-MS | 4 |
| acetilation | 4 |
| purification of murine macrophages | 4 |
| gastric emptying measurement | 4 |
| inhibition assay of Trypanosoma cruzi cell invasion | 4 |
| melting poind determination | 4 |
| sequence analysis of gene clusters | 4 |
| RP-LC-MS/MS | 4 |
| 1D-SEMDY | 4 |
| Morgan-Elson method | 4 |
| antifungal activities | 4 |
| phosphate measurements | 4 |
| SRS microscopy | 4 |
| polymer hydrodynamics | 4 |
| N-glycosylation sites analysis | 4 |
| elementary analysis | 4 |
| affinity digestion | 4 |
| FAME | 4 |
| alkline hydrolysis | 4 |
| Kirby method | 4 |
| DOGE-PAGE | 4 |
| chemical method | 4 |
| sulfate ester measurements | 4 |
| SOD | 4 |
| invasion assays | 4 |
| inhibition reaction | 4 |
| Hakomori's method | 4 |
| recombination techniques | 4 |
| FLAG-affinity chromatography | 4 |
| serum glucose measurement | 4 |
| 13C-1H-HMQC | 4 |
| carbon-celite column chromatography | 4 |
| RP-PTLC | 4 |
| human neutrophil phagocytosis assay | 4 |
| de-O-acetylation with hydrazine | 4 |
| centrifugationmolecular modeling | 4 |
| sporulation assays | 4 |
| SFC-MS | 4 |
| detergent-promoted hydrolysis | 4 |
| HPSEC-MALLS-RID analysis | 4 |
| T cell-mediated cytotoxity | 4 |
| acid hydrolisis | 4 |
| reduction with KBH4 | 4 |
| retrosynthetic analysis | 4 |
| nanoLC-MS | 4 |
| periodic oxidation | 4 |
| antiviral activity | 4 |
| HETEROCOSY | 4 |
| immunological analysis | 4 |
| protein purification | 4 |
| plasmid constructs | 4 |
| HSCCC | 4 |
| Edman sequencing | 4 |
| adsorption assay | 4 |
| alkaline phosphatase assay | 4 |
| optical rotation measurment | 4 |
| SEC-MALLS-RI-VISC | 4 |
| pellicles production | 4 |
| acetic acid hydrolysis | 4 |
| potentiometry | 4 |
| ion exchange chropmatography | 4 |
| NMR-2 | 4 |
| amino acid sequencing | 4 |
| DNA expression | 4 |
| nLC-MS | 4 |
| TOFCSY | 3 |
| cell cycle analysis | 3 |
| Broadband Dielectric Spectroscopy (BDS) | 3 |
| γ9δ2 T cell-stimulatory activity | 3 |
| precipitin-inhibition assay | 3 |
| reducing sugar measurement | 3 |
| MALDI-QIT-TOF-MS | 3 |
| growth assays | 3 |
| 13N MNR | 3 |
| anthrone-sulfuric acid method | 3 |
| antibody-precipitation assay | 3 |
| hypoglycemic assay | 3 |
| GSH | 3 |
| UVB irradiation | 3 |
| ELISA-like tailspike adsorption assay | 3 |
| APCI-MS/MS | 3 |
| film preparation | 3 |
| computation with OCCAM | 3 |
| NESY | 3 |
| MALDI-ISD FT-ICR MS | 3 |
| trNOESY | 3 |
| neonatal thymectomy | 3 |
| carbohydrate microarray analysis | 3 |
| antibiotic and stress sensitivity assay | 3 |
| TPS-MS | 3 |
| GODESS | 3 |
| DQF-COYS | 3 |
| SEC-ES-MS | 3 |
| HBBD | 3 |
| stress-strain test | 3 |
| C3 | 3 |
| extractions | 3 |
| base hydrolysis | 3 |
| fluorescent flow cytometry | 3 |
| glucose assay | 3 |
| northern analysis | 3 |
| MTT assay | 3 |
| DOG-PAGE | 3 |
| ice recrystallization inhibition assay | 3 |
| phenol-sulphuric acid assay | 3 |
| priming activity | 3 |
| photocyclization | 3 |
| α-D-mannosidase treatment | 3 |
| bactericidal activity | 3 |
| HPSEC–MALLS | 3 |
| TFA hedrolysis | 3 |
| HR-ESI-MS1H NMR | 3 |
| endo-N-acetylglucosaminidase H digestion | 3 |
| QH NMR | 3 |
| antibiofilm activity | 3 |
| solvolysis with anhydrous CF3CO2H | 3 |
| laser scanning | 3 |
| hCMEC cell adherence assays | 3 |
| animals and experimental protocol | 3 |
| mathanolysis | 3 |
| hydrolisis with triflic acid | 3 |
| chiroptical measurements | 3 |
| SPAAC click chemistry | 3 |
| extract | 3 |
| CSD-ESI-FTICR-MS | 3 |
| In vitro fermentation | 3 |
| gravimetric analysis | 3 |
| GPC-RI | 3 |
| cluster size calculation | 3 |
| immunophenotyping | 3 |
| ion exchange chromatograpy | 3 |
| Confocal laser scanning microscopy | 3 |
| cryo-EM | 3 |
| total sugars measurement | 3 |
| haemolytical activity assay | 3 |
| GC/MS | 3 |
| enzymatic dephosphorylation | 3 |
| modeling | 3 |
| monolayer technique | 3 |
| chromatogram binding assay | 3 |
| XSROESY | 3 |
| plate chromogenic assay | 3 |
| HR-FAB | 3 |
| cultivation methods | 3 |
| membrane inlet MS | 3 |
| MALLS-RI | 3 |
| gravimetry | 3 |
| HP-TLC | 3 |
| mild de-O-acylation | 3 |
| HPF-TEM | 3 |
| co-cultivation | 3 |
| exopolysaccharide degradation kinetics | 3 |
| biofilm formation | 3 |
| radiolabeled synthesis | 3 |
| MAS STD NMR | 3 |
| whole-cell indirect ELISA | 3 |
| anti-ulcerogenic effect | 3 |
| RecET direct cloning | 3 |
| hydrophobic interaction chromatograpy | 3 |
| GODDESS NMR simulation | 3 |
| centrifugaiton | 3 |
| deletion of wbiI | 3 |
| phosphate determination | 3 |
| HPLC-QTOF-MS/MS | 3 |
| HR ESI-MS | 3 |
| Elson–Morgan method | 3 |
| genetic analysis | 3 |
| LiAlH4 reduction | 3 |
| alkaline cleavage | 3 |
| PND | 3 |
| macrophage polarization | 3 |
| 1H NMR COSY | 3 |
| phage genome comparison | 3 |
| SEC-MALS/RI | 3 |
| co-purification experiments | 3 |
| primer extension analysis | 3 |
| photoaffinity labeling | 3 |
| COYS | 3 |
| aminopyrene trisulfonic acid derivatization | 3 |
| osmotic lysis | 3 |
| molecular biology techniques | 3 |
| sulphuric acid hydrolysis | 3 |
| qPCR RT | 3 |
| silica gel column chromatography | 3 |
| microwell binding assay | 3 |
| SEC-SAXS | 3 |
| deproteinization | 3 |
| 32P labeling | 3 |
| EMSA | 3 |
| CID-ESI-IT-MS | 3 |
| ETD-MS/MS | 3 |
| precipitaiton | 3 |
| endocytosis assay | 3 |
| glycolipid detection | 3 |
| DNA restriction | 3 |
| butylation | 3 |
| methylation analysis (Hakomori method) | 3 |
| QTRAP-MS | 3 |
| HMRS | 3 |
| HCl acid hydrolysis | 3 |
| CAD-MS | 3 |
| compositional analysis | 3 |
| LPS bioactivity in murine macrophages | 3 |
| IRI | 3 |
| Kuhn's method | 3 |
| hPF-MD simulations | 3 |
| simulation NMR-2D | 3 |
| cell adhesion assay | 3 |
| EPS production | 3 |
| photometry | 3 |
| SPM | 3 |
| fractional precipitation | 3 |
| LSIMS | 3 |
| endonuclease ligation | 3 |
| O-desulfation | 3 |
| LC/UV | 3 |
| surface tension measurement | 3 |
| emulsifying activity | 3 |
| IRMPD-MS/MS | 3 |
| cytokine assays | 3 |
| glycan microarray | 3 |
| biological tests | 3 |
| PGSTE-NMR | 2 |
| MMR-2D | 2 |
| vacuum filtration | 2 |
| simultaneous thermal analysis | 2 |
| 1C NMR | 2 |
| GCL | 2 |
| measurement of cytokines activity | 2 |
| cemtrifugation | 2 |
| phagocytic assay | 2 |
| ortholog computation | 2 |
| EDS | 2 |
| XTT assay | 2 |
| Smith-periodate oxidation | 2 |
| dynamic light scattering (DLS) | 2 |
| LDH | 2 |
| FACS analysis | 2 |
| ionization constant measurement | 2 |
| FTIR spectroscopy | 2 |
| ultrfiltration | 2 |
| animal experiment | 2 |
| sialic acid staining | 2 |
| MTS assay | 2 |
| catalytic glycosylation | 2 |
| periodate oxidatiion | 2 |
| RPLC | 2 |
| HPGFC | 2 |
| DV | 2 |
| X-ray crystallographic analysis | 2 |
| plant developmental parameter evaluation | 2 |
| inhibition assay | 2 |
| Congo Red complex formation | 2 |
| IEF-PAGE | 2 |
| FE-SEM | 2 |
| DEFNOE | 2 |
| glycoconjugation | 2 |
| MALDI-TOF/TOF | 2 |
| biosorption studies | 2 |
| 1 NMR | 2 |
| glypiation | 2 |
| light-scattering | 2 |
| opsonophagocytic killing assay | 2 |
| cell density determination | 2 |
| 1H-1H COSY | 2 |
| citokine production | 2 |
| morphological methods | 2 |
| HPLC-QTRAP | 2 |
| AChE inhibitory assay | 2 |
| differential scanning fluorometry | 2 |
| EtOH extraction | 2 |
| LF-NMR | 2 |
| taste dilution analysis | 2 |
| enzymatic acylation | 2 |
| OMV production quantitation | 2 |
| metamorphosis assay | 2 |
| uterine contractility | 2 |
| metylation | 2 |
| cell-cell aggregation assay | 2 |
| Gc-MS | 2 |
| Dische colorimetric method | 2 |
| staticstical analysis | 2 |
| Baeyer-Villiger reaction | 2 |
| VCD | 2 |
| HEK-blue TLR4 activation assay | 2 |
| atomic force microscop | 2 |
| protein extraction | 2 |
| HIM | 2 |
| HR–ESI-MS | 2 |
| precipitaion | 2 |
| Hakomori method | 2 |
| thermospray MS | 2 |
| alkali degradation | 2 |
| IH NMR | 2 |
| crystallographic methods | 2 |
| FISH technique | 2 |
| biosynthetic modifications | 2 |
| sequence similarity network | 2 |
| nano-micelles characterization | 2 |
| limulus colorimetric test | 2 |
| MBTH method | 2 |
| carbon clearance assay | 2 |
| perdeuteriomethylation | 2 |
| Ms/MS | 2 |
| writhing test | 2 |
| HPAEC−PAD | 2 |
| phase contrast microscopy | 2 |
| phospho-phenol method | 2 |
| detached leaflet method | 2 |
| AEC | 2 |
| passive hemolysis test(PHT) | 2 |
| digestion with glusulase | 2 |
| a-glucosidase treatment | 2 |
| proton spin-diffusion | 2 |
| N-lactylation | 2 |
| superimposition analysis | 2 |
| behavioral tests | 2 |
| ePH-NMR | 2 |
| acidic hydrolysids | 2 |
| CMR | 2 |
| ion exchange | 2 |
| critical micelle concentration measurement | 2 |
| cyclic voltammetry measurements | 2 |
| reduction with NaBH4 | 2 |
| metabolic labelling with azido sugar | 2 |
| resorcinol-sulfuric acid assay | 2 |
| nanoLC-ESI-IT-MS/MS | 2 |
| vaccine formulation | 2 |
| micellar electrokinetic capillary chromatography | 2 |
| homology modeling of enzymes | 2 |
| RI | 2 |
| enzymatic deglycosylation | 2 |
| UHPLC-HR-MS | 2 |
| GLC/MS | 2 |
| DrawGlycan-SNFG | 2 |
| pangenome analysis | 2 |
| immunoelectrophoresis | 2 |
| 3C NMR | 2 |
| HETCOUR | 2 |
| ATR-FTIR | 2 |
| formolysis | 2 |
| synthesis of Zn derivative | 2 |
| TFA/HCl hydrolysis | 2 |
| HR-ESI-TOF-MS | 2 |
| LSI-MS/MS | 2 |
| endoglucosaminidase H digestion | 2 |
| alkaline oxidation | 2 |
| DES extraction | 2 |
| cytotoxic analysis | 2 |
| glycoproteomics analysis | 2 |
| macrophage activity | 2 |
| QUIET-trNOESY | 2 |
| periodate borohydride reduction | 2 |
| ROS | 2 |
| xtraction | 2 |
| SDOC-PAGE | 2 |
| enzymatic hydrolyisis | 2 |
| hyphal formation | 2 |
| DSA-FACE | 2 |
| assay for utilization of dolichol phosphoglucose | 2 |
| column chromatorgraphy | 2 |
| pathogenicity assays | 2 |
| b-galactosidase assays | 2 |
| N-terminal sequence analysis | 2 |
| acidic oxidation | 2 |
| acid hydrolisys | 2 |
| preparative PAGE | 2 |
| biofilm assay | 2 |
| analysis of TNF‑α secretion | 2 |
| anion exchange column | 2 |
| hot water eextraction | 2 |
| cell culture | 2 |
| hydrolysis by human GH30 glucocerebrosidase | 2 |
| GLS | 2 |
| phage typing | 2 |
| orthogonal one-pot glycosylation | 2 |
| ES-CID MS/MS | 2 |
| Smith-de Mayo degradation | 2 |
| in vitro prebiotic activity | 2 |
| acetylatione | 2 |
| iodination | 2 |
| CSEM | 2 |
| FACS | 2 |
| generation of polyclonal antiserum | 2 |
| ion-pair chromatography | 2 |
| LSPR binding assay | 2 |
| ensymatoic digestion | 2 |
| alkali treatment | 2 |
| OD | 2 |
| MALDI-QIT-TOF MS | 2 |
| MDA | 2 |
| nitrogen determination | 2 |
| methylation assay. acid hydrolysis | 2 |
| 13C-enriched polysaccharide | 2 |
| macrophage infection | 2 |
| cardiovascular activity | 2 |
| microscopic analysis | 2 |
| SEC-MALLS-VIS-RID | 2 |
| 2D-electrophoresis | 2 |
| SIMPSON simulation | 2 |
| determination of anticoagulant activity | 2 |
| acetic anhydride-pyridine degradation | 2 |
| HPSEC-RI-MALLS | 2 |
| NCI-MS | 2 |
| surface tension titration | 2 |
| COSY HSQC | 2 |
| HR-ESI-MALDI-TOF MS | 2 |
| thermodynamic stability analysis | 2 |
| alcaline hydrolysis | 2 |
| HR-MS/MS | 2 |
| toxin resistance assay | 2 |
| borhydride reduction | 2 |
| ultracytochemical studies | 2 |
| negative FAB-MS | 2 |
| Folin-Lowry method | 2 |
| PaWaaG crystallization | 2 |
| carbohydrate analysis | 2 |
| RP-HPLC-MS | 2 |
| enzymatic desialylation | 2 |
| UHPLC-qTOF HD-MS | 2 |
| oscillatory experiments | 2 |
| EDX | 2 |
| chromic anhydride oxidation | 2 |
| сolumn chromatography | 2 |
| polarimetry | 2 |
| flow cytometric serotyping assays | 2 |
| gel filration | 2 |
| HR-FD-MS | 2 |
| controlled Smith degradation | 2 |
| OMV composition | 2 |
| LC-DAD-MS | 2 |
| growth conditions | 2 |
| capillary isotachophoresis | 2 |
| RDC | 2 |
| anticancer activity | 2 |
| RPLC-QQQ-MS | 2 |
| hypolipidemic activities in vitro assays | 2 |
| HPGFC-MALLS-RI | 2 |
| GSI digestion in vitro | 2 |
| Dectin-2 reporter assay | 2 |
| sugar composition | 2 |
| mutant screening | 2 |
| HPSEC-UV | 2 |
| HRSEM | 2 |
| computation with POLYS | 2 |
| prebiotic activity assay | 2 |
| FAB-MIKE | 2 |
| gene cloning | 2 |
| ion spray MS | 2 |
| trROESY | 2 |
| alkaline hydrloysis | 2 |
| metal biosorption analysis | 2 |
| gold catalysis | 2 |
| LC-HRESIMS | 2 |
| carbohydrate microarray construction | 2 |
| mild alkali degradation | 2 |
| 1H-31P GHMBC | 2 |
| antioxidant activity | 2 |
| demethylation | 2 |
| UV-ARTP combined mutagenesis | 2 |
| 2D-NOESY NMR | 2 |
| protection studies | 2 |
| physico-chemical studies | 2 |
| a-amyloglucosidase treatment | 2 |
| composition analyses | 2 |
| HMCB | 2 |
| insulin-resistant cell model | 2 |
| basic hydrolysis | 2 |
| HSQC-NOESY | 2 |
| EtOH precipitation | 2 |
| TLC immunoblot | 2 |
| countercurrent chromatography | 2 |
| alkaline de-N-acylationmild acid hydrolysis | 2 |
| cyclic voltammetry | 2 |
| ORD | 2 |
| selective acylation | 2 |
| methanol precipitation | 2 |
| gut microbiota analysis | 2 |
| luciferase assay | 2 |
| MINSY | 2 |
| animal studies | 2 |
| LC-SRM-MS | 2 |
| histopathological observations | 2 |
| Marfey’s method | 2 |
| water solubility | 2 |
| anticancer activity in vitro | 2 |
| RT PCR | 2 |
| GLC-MS IR | 2 |
| mild-acid degradation | 2 |
| identification | 2 |
| antitumor test | 2 |
| BiofilmQ software analysis | 2 |
| partial delipidation | 2 |
| α-amylase treatment | 2 |
| CRM197 formulation | 2 |
| thin layer chromatography | 2 |
| fluorography | 2 |
| O-acetyltransferase assay | 2 |
| lectin staining | 2 |
| hemostasis assay | 2 |
| viscosimetry | 2 |
| perethylation | 2 |
| antibody binding assay | 2 |
| 1H-STD NMR | 2 |
| enzyme essay | 2 |
| 2D-SDS-PAGE | 2 |
| HPLC-RI-MS | 2 |
| HIC | 2 |
| disco-diffusion method | 2 |
| interleukin-2 assay | 2 |
| electrical measurements | 2 |
| biodegradability assay | 2 |
| Computational methods | 2 |
| IC-PAD | 2 |
| FASTA | 2 |
| DCS | 2 |
| glucosylation | 2 |
| selective degradation | 2 |
| metabolite annotation | 2 |
| analysis | 2 |
| salt stress | 2 |
| PPR | 2 |
| TOCSY< MS | 2 |
| MassLynx(TM) | 2 |
| 1H TOSCY | 2 |
| cellular uptake and degradation of FLNT | 2 |
| spleen cell proliferation assay | 2 |
| E-COSY | 2 |
| monocyte stimulation | 2 |
| immunoenzyme essay | 2 |
| VexE acyltransferase assay | 2 |
| 3D NMR | 2 |
| dynamic laser scattering | 2 |
| in vitro labeling | 2 |
| TG | 2 |
| electrospinning technology | 2 |
| generation of mutants | 2 |
| ion-exhange chromatography | 2 |
| reducing sugar assay | 2 |
| transient isotachophoresis | 2 |
| PFG-NMR | 2 |
| PMP derivatization | 2 |
| Quanti-Blue assay | 2 |
| slab-electrophoresis | 2 |
| micronucleus test | 2 |
| U/GIC | 2 |
| 1H HR-MAS NMR | 2 |
| N-biotinylation | 2 |
| de-O-acylation with hydrazin | 2 |
| GPCX | 2 |
| antiparasitic assay | 2 |
| HPLC-GPC-ELSD | 2 |
| sugar | 2 |
| assay of cyclip AMP phosphodiesterase activity | 2 |
| column chromatrography | 2 |
| zinc degradation | 2 |
| planar chromatography | 2 |
| HRMS-MS | 2 |
| computation of NMR relaxation parameters | 2 |
| galectin-mediated hemagglutination assay | 2 |
| HR-ESI MS | 2 |
| fluorescent mocroscopy | 2 |
| metabolomic analysis | 2 |
| nano–ES-MS-MS | 1 |
| anticonvulsant assay | 1 |
| 1H-13C COSY | 1 |
| splenocytes proliferation assay | 1 |
| modified Fehling solution method | 1 |
| enzymatic treatment with phospholipase | 1 |
| degradation by ultrasound assisted H(2)O(2)/ascorbic acid reaction | 1 |
| immunizations | 1 |
| cis-diol test | 1 |
| paper chromatorgraphy | 1 |
| WHAM | 1 |
| SPS | 1 |
| extraction precipitation | 1 |
| differential scanning calorimetry | 1 |
| in vitro simulated digestion of SNA12-EPS | 1 |
| aci dhydrolysis | 1 |
| qIT-MS | 1 |
| Elson-Morgan method | 1 |
| adsorption measurement | 1 |
| tissue isolation | 1 |
| enzymatic MS fingerprinting | 1 |
| cultivations | 1 |
| glucose | 1 |
| transwell assay | 1 |
| screening procedures | 1 |
| memory dysfunction assay | 1 |
| Julia−Kocienski olefination | 1 |
| 13C DEPT 135 | 1 |
| PNAG assay on bacterial cell surface | 1 |
| methylatioon analysis | 1 |
| RC-PCR | 1 |
| optical radical measurement | 1 |
| optical rotatory dispersion | 1 |
| co-cultured in vitro gut model of Caco-2 and PMA-THP-1 | 1 |
| 3-glucanase hydrolysis | 1 |
| assessment of probiotic | 1 |
| determination of oxygen | 1 |
| HILIC-MIM-MS | 1 |
| bacterial agglutinations | 1 |
| immunosorbent assay | 1 |
| HPSEC-SV/RI | 1 |
| prebiotic activity | 1 |
| intestinal microflora analysis | 1 |
| conformational energy mapping | 1 |
| cryoprotective activity assay | 1 |
| lectin and carbohydrate microarray construction | 1 |
| aminopropylation | 1 |
| DNA manipulation | 1 |
| LC-HR-ESI-MS | 1 |
| Proteolytic assays | 1 |
| anion–exchange chromatography | 1 |
| RP-LC-MS | 1 |
| wild cultivation | 1 |
| UHPLC–ESI-MS/MS | 1 |
| HPAEC-PAD/ESI-MS | 1 |
| pharmacokinetic study | 1 |
| molecular biology methods | 1 |
| immunoabsorption | 1 |
| SEM-EDX | 1 |
| ethanolic precipitation | 1 |
| column chromatogaphy | 1 |
| complex-formation with Congo Red | 1 |
| proteomic analysis | 1 |
| HMBS | 1 |
| сolumn purification | 1 |
| insulin tolerance tests | 1 |
| dynamic membrane filtration | 1 |
| CLAE-EM/EM | 1 |
| iodine reaction | 1 |
| biochemical synthesis | 1 |
| cultured plant cells growth assay | 1 |
| larvicidal activity | 1 |
| selection medium | 1 |
| DHPME | 1 |
| guantitative NMR method | 1 |
| lithium reduction | 1 |
| histopathological analysis | 1 |
| GC-MS/MS | 1 |
| RR spectroscopy | 1 |
| microwave irradiation | 1 |
| HPGLC | 1 |
| colomn chromatography | 1 |
| dextran production | 1 |
| immunohistochemical examination | 1 |
| force field | 1 |
| inhibitory assay | 1 |
| gastric ulcer rats model | 1 |
| fluorescence polarization immunoassay | 1 |
| electron transfer dissociation | 1 |
| congo red analysis | 1 |
| ion spray tandem mass spectrometry | 1 |
| genotyping PCR | 1 |
| ITMS | 1 |
| MALDI–TOF | 1 |
| m-hydroxydiphenyl method | 1 |
| DRIFT IR | 1 |
| sporozoite surface labeling | 1 |
| HCQC | 1 |
| chemiluminescence measurements | 1 |
| structure and usage of the EPS database | 1 |
| protein assay | 1 |
| physiological tests | 1 |
| immunomodulatory activity | 1 |
| BET analysis | 1 |
| HMDC | 1 |
| Stewart method | 1 |
| confocal laser scanning microscopy | 1 |
| IC | 1 |
| glucose uptake assay | 1 |
| selective cleavage of ketosidic linkages | 1 |
| nESI-QFTICR MS | 1 |
| de-D-alanylation | 1 |
| rules for constructing symbols | 1 |
| simulated digestion | 1 |
| oligosaccharide glucosidase assay | 1 |
| LC-TOF/MS | 1 |
| TOCSY HSQC | 1 |
| 14C-scintillation counting | 1 |
| GC-TOF-MS | 1 |
| software development; published polymerization frame was shifted for conformity with other records. | 1 |
| anticancer activity in vitro assay | 1 |
| 1H STD NMR | 1 |
| specular neutron reflectometry measurements | 1 |
| orcinol-ferric chloride method | 1 |
| mitogenic assay | 1 |
| HPGPG | 1 |
| monoclonal antibody generation | 1 |
| photolytic depolymerization | 1 |
| atomic force microscopy (AEM) | 1 |
| immunohistochemistry (IHC) | 1 |
| HPLC-UV-MS | 1 |
| protein production | 1 |
| α-glucosidase activity | 1 |
| inoculation experiments | 1 |
| Smith degradadtion | 1 |
| in vitro glycolipid biosynthesis | 1 |
| HSC | 1 |
| pyrogenic test | 1 |
| NIR imaging | 1 |
| bioactivity assay | 1 |
| electrospinning | 1 |
| quartz crystal microbalance | 1 |
| transglycosidic torsion calculations | 1 |
| screening | 1 |
| lectron microscopy | 1 |
| PEM | 1 |
| 133Cs-NMR | 1 |
| FTICR | 1 |
| methylation analysis (the Hakomori method) | 1 |
| LC-MRM-MS | 1 |
| hepatocyte invasion assay | 1 |
| anthrone assay | 1 |
| RP-TLC | 1 |
| optical rotation measurent | 1 |
| antifungal activity tests | 1 |
| 1H1H COSY | 1 |
| phosphopeptide analysis | 1 |
| SI-FTICR-MS | 1 |
| muramidase digestion | 1 |
| HPLC-RID | 1 |
| protein crystallization | 1 |
| Saeman hydrolysis | 1 |
| compositions analysis | 1 |
| HMQC-HOHAHA | 1 |
| potential energy surfaces (PES) | 1 |
| galactosydase hydrolysis | 1 |
| bifidogenic activity | 1 |
| TA | 1 |
| HR-ESI | 1 |
| FAB | 1 |
| mechanics calculations | 1 |
| metabolites analysis | 1 |
| salt-stress | 1 |
| 13C NMT | 1 |
| carbo-blotting | 1 |
| RIA | 1 |
| western blot assay | 1 |
| solid-state NMR | 1 |
| RTMS | 1 |
| DPPH radical scavenging activity | 1 |
| deglycosylation | 1 |
| epifluorescence microscopy | 1 |
| WEstern blotting | 1 |
| column chomatography | 1 |
| HREIMS | 1 |
| insecticide activity | 1 |
| flocculation experiments | 1 |
| computer modeling | 1 |
| TG-DTA | 1 |
| electrospray MS | 1 |
| He-CTD-MS/MS | 1 |
| construction nanoparticles | 1 |
| screening of EPS producing strain | 1 |
| ultrasound-assisted enzymatic extraction | 1 |
| TMV infection | 1 |
| viscosity measurment | 1 |
| periodate opxidation | 1 |
| GLC-ESI-MS | 1 |
| ROSEY | 1 |
| sorption experiments | 1 |
| hypoglycemic activity measurement | 1 |
| oxidative partial depolymerization | 1 |
| antitumor activity | 1 |
| HPLC-GPC-RI | 1 |
| X-ray crystallograph | 1 |
| ESI-FTMS | 1 |
| HRMSISMS | 1 |
| Bacillus proteases treatment | 1 |
| preacetylation | 1 |
| intestinal fermentation in vitro | 1 |
| electron beam irradiation | 1 |
| acid–base titration | 1 |
| quantitative 31P NMR | 1 |
| NMR-21D | 1 |
| fluorescent polarization measurements | 1 |
| Congo Red assay | 1 |
| isotope crossover | 1 |
| alkaline electrodialysis | 1 |
| lectin affnity chromatography | 1 |
| single-molecule force spectroscopy | 1 |
| TPA | 1 |
| measuring the Al3+-adsorbing ability of polysaccharides | 1 |
| Micro LC-(ES+)-MS/MS | 1 |
| 1H-13C long range COSY | 1 |
| splenocytes stimulation | 1 |
| HBBC | 1 |
| stereoplotting | 1 |
| SEM-EDS | 1 |
| column chromaotgraphy | 1 |
| ABS spectroscopy | 1 |
| proteolytic digestion | 1 |
| dynamic mechanical analysis | 1 |
| concentration | 1 |
| qNMR | 1 |
| NMR analysis by GODDESS | 1 |
| LDH assay | 1 |
| elektrokinetic potentials measurements | 1 |
| meta-analyses (PRISMA) | 1 |
| metling point determination | 1 |
| LC-MS/MSHILIC-MS/MS | 1 |
| histone H1 kinase assays | 1 |
| anti-Alzheimer study | 1 |
| microwave degradation | 1 |
| phenol-sulfuric assay | 1 |
| ozonolysi | 1 |
| ELIZA | 1 |
| plant growth promotion | 1 |
| Sevag methodf | 1 |
| swelling measurement | 1 |
| binding free energy calculation | 1 |
| electron tomography | 1 |
| fluorescent staining analysis | 1 |
| emulsion preparation | 1 |
| kinase inhibition assay | 1 |
| lectin binding | 1 |
| nUPLC-MS/MS | 1 |
| FT-IR< HPLC | 1 |
| limphocyte proliferation assay | 1 |
| TLCX | 1 |
| m-hydroxydiphenyl colorymetry method | 1 |
| Q-TOF/MS | 1 |
| annexin V–FITC/PI assay | 1 |
| TRAP staining | 1 |
| antibacterial assays | 1 |
| S Smith degradation | 1 |
| HPAEC–PAD | 1 |
| clonind | 1 |
| EDX spectroscopy | 1 |
| SERS | 1 |
| desulphation | 1 |
| chromogenic LAL assay | 1 |
| differential viscometry | 1 |
| acid-tolerance | 1 |
| conductometry | 1 |
| NMR relaxation | 1 |
| bioconjugate vaccine production | 1 |
| Hofmann degradation | 1 |
| MAD | 1 |
| IR-LDMS | 1 |
| metabolic labeling | 1 |
| data sources and format | 1 |
| LC-ES-MS | 1 |
| 13C NMR COSY | 1 |
| 14C NMR | 1 |
| high-performance gel-permeation chromatography | 1 |
| macroscopic friction test | 1 |
| cathepsin D activity assay | 1 |
| cells injury model | 1 |
| spectroscopy | 1 |
| antimalarial assay | 1 |
| Dot blot assay | 1 |
| pancreatin-tolerance | 1 |
| chiro-optical measurements | 1 |
| X-ray photoelectron spectroscopy | 1 |
| plasma mutagenesis | 1 |
| implants in mice | 1 |
| gastrointestinal metabolism | 1 |
| binding with BSA | 1 |
| HR-ESI-QTOF-MS | 1 |
| Coomassie brilliant blue method | 1 |
| scanning electron microscopy | 1 |
| In vitro digestion of FGFP | 1 |
| turbidimetry | 1 |
| nanoESP IT MS | 1 |
| gradient ethanol precipitation | 1 |
| FT-R | 1 |
| PMF calculation | 1 |
| MCD spectroscopy | 1 |
| ultrasonic-assisted extraction | 1 |
| TUNEL assay | 1 |
| cell migration assay | 1 |
| hygroscopic activity | 1 |
| DRIFT spectroscopy | 1 |
| dendritic cells | 1 |
| protein binding assay | 1 |
| N-sulfonation | 1 |
| FAAS | 1 |
| preparations of paramylon beads and paper | 1 |
| elicitor preparation | 1 |
| agglutination assay | 1 |
| HR-MALDI-TOF-MS | 1 |
| trimethylsilation | 1 |
| DMA | 1 |
| serological cross-reactions | 1 |
| luminescence spectrometry | 1 |
| carbazole-sulfuric acid method | 1 |
| RI-MP2 calculations | 1 |
| anti-inflammatory activity assays | 1 |
| anticoagulant activity | 1 |
| DOSY NMR | 1 |
| immune complex kinase assay | 1 |
| UR | 1 |
| SEC-UV-MALS-DLS-RI | 1 |
| enzymic degradation | 1 |
| sulfoethylation | 1 |
| dielectrophoresis forces measurement | 1 |
| HPLC/ESI-MS | 1 |
| α-glucosidase inhibitory activity | 1 |
| flocculation activity | 1 |
| NMBC | 1 |
| synthesis of graphene oxide hydrogel (LNT-GO Gel) | 1 |
| fluorescence-HPLC | 1 |
| HR-ESIMS | 1 |
| Harkomori's method | 1 |
| cultivation method | 1 |
| cytotoxicity assa | 1 |
| light electron microscopy | 1 |
| MALLS photometry | 1 |
| two-wavelength MAD experiment | 1 |
| angiogenesis assay | 1 |
| short term pulse-chase labeling | 1 |
| nitrogen adsorption | 1 |
| TLs | 1 |
| MST analysis | 1 |
| periodate degradation | 1 |
| hybridization | 1 |
| cell prolifiration assay | 1 |
| ymphocyte proliferation assay | 1 |
| SDS | 1 |
| characterization of LNT-GO Gel | 1 |
| molecular mechanics and dynamics calculations | 1 |
| density functional calculations | 1 |
| UV-spectrophotometry | 1 |
| phosphoproteomics analysis | 1 |
| exo-β-1 | 1 |
| X-ray EDX | 1 |
| Saito method | 1 |
| pulsed-field gel electrophoresis | 1 |
| interleukin-8 assay | 1 |
| bile-tolerance | 1 |
| TC | 1 |
| electrochemical measurements | 1 |
| acidolysis | 1 |
| influenza virus infection protocol | 1 |
| acid hydrolysids | 1 |
| quantitative 1H NMR | 1 |
| thermal hysteresis | 1 |
| Congo Red | 1 |
| cryo-EM analysis | 1 |
| radioimmunoassay | 1 |