The evolving field of imaging mass spectrometry and its impact on future biological research.
about
Mass spectrometry imaging under ambient conditionsCorrelated imaging--a grand challenge in chemical analysisThree-dimensional imaging of lipids and metabolites in tissues by nanospray desorption electrospray ionization mass spectrometryMass spectrometry imaging with high resolution in mass and space.Analysis of tissue specimens by matrix-assisted laser desorption/ionization imaging mass spectrometry in biological and clinical research.MALDI imaging mass spectrometry for in situ proteomic analysis of preneoplastic lesions in pancreatic cancerUsing collective expert judgements to evaluate quality measures of mass spectrometry imagesMacroscopic and microscopic spatially-resolved analysis of food contaminants and constituents using laser-ablation electrospray ionization mass spectrometry imagingImaging mass spectrometry for assessing temporal proteomics: analysis of calprotectin in Acinetobacter baumannii pulmonary infectionMALDI imaging mass spectrometry: statistical data analysis and current computational challengesMass spectrometry tools and workflows for revealing microbial chemistry.EXIMS: an improved data analysis pipeline based on a new peak picking method for EXploring Imaging Mass Spectrometry data.Differentiating tumor heterogeneity in formalin-fixed paraffin-embedded (FFPE) prostate adenocarcinoma tissues using principal component analysis of matrix-assisted laser desorption/ionization imaging mass spectral data.Utility of spatially-resolved atmospheric pressure surface sampling and ionization techniques as alternatives to mass spectrometric imaging (MSI) in drug metabolism.Visualizing life with ambient mass spectrometry.Characterization of microbial mixtures by mass spectrometry.Screening and identification of novel biologically active natural compounds.MALDI imaging mass spectrometry for direct tissue analysis: technological advancements and recent applications.Desorption electrospray ionization then MALDI mass spectrometry imaging of lipid and protein distributions in single tissue sectionsMatrix-assisted laser desorption/ionization imaging mass spectrometry: a promising technique for reproductive research.Automated correlation and classification of secondary ion mass spectrometry images using a k-means cluster method.Mass spectrometry-based tissue imaging of small moleculesIdentification and imaging of peptides and proteins on Enterococcus faecalis biofilms by matrix assisted laser desorption ionization mass spectrometryMolecular analysis of model gut microbiotas by imaging mass spectrometry and nanodesorption electrospray ionization reveals dietary metabolite transformationsCardinal: an R package for statistical analysis of mass spectrometry-based imaging experiments.Single-cell lipidomics: characterizing and imaging lipids on the surface of individual Aplysia californica neurons with cluster secondary ion mass spectrometryInteractions in the microbiome: communities of organisms and communities of genesImproved MALDI-TOF microbial mass spectrometry imaging by application of a dispersed solid matrix.Benchmark datasets for 3D MALDI- and DESI-imaging mass spectrometry.Homogeneous matrix deposition on dried agar for MALDI imaging mass spectrometry of microbial cultures.Reducing Spatial Heterogeneity of MALDI Samples with Marangoni Flows During Sample Preparation.Nondestructive, histologically compatible tissue imaging by desorption electrospray ionization mass spectrometry.Imaging mass spectrometry in microbiology.High-speed tandem mass spectrometric in situ imaging by nanospray desorption electrospray ionization mass spectrometry.Metabolic profiling directly from the Petri dish using nanospray desorption electrospray ionization imaging mass spectrometry.Going local: technologies for exploring bacterial microenvironments.The proteomic future: where mass spectrometry should be taking us.Ion sources for mass spectrometric identification and imaging of molecular species.Mechanisms of synergy in polymicrobial infections.Probabilistic Segmentation of Mass Spectrometry (MS) Images Helps Select Important Ions and Characterize Confidence in the Resulting Segments.
P2860
Q27021845-C324AD3A-558B-43FD-BEC6-B34A6642BF3BQ27024439-432BD108-E971-4E6F-8FC5-EE6C85130905Q27324466-984F3345-3B54-4559-9794-C19A3D0CB5FEQ28383071-5D38C23C-3D98-4D35-9F88-9BFAAF0F0E62Q28396816-353B83BF-A2D8-49C9-AB07-B5FB8786B64BQ28480625-7452D3A2-178F-42CD-9BF9-636959C52395Q28603781-BE73076D-4176-4331-99D2-176FD18F52D0Q30428293-54628DF7-7EC5-4199-9A18-3A2A985D5A6AQ30440550-AE08E78F-4F95-4A42-9E5E-032B30D15254Q30578315-C669C3FC-73D6-4002-BCFB-88C63548A38DQ30853422-EDC2F8E5-2193-4264-8380-F083597B53DFQ30969788-3EECEFA8-4A2A-43C0-9B66-5F64E0C833F0Q31139690-5E714309-F62F-4394-B8A0-E57C36D359B6Q33450815-68FF71C1-3129-4D12-9025-D78B580B78C9Q33462664-FA1562D5-A5F9-46D0-890D-F85057E559B5Q33470495-2B2C86EC-EE39-4739-A4C7-D40BF9760B8BQ33777835-64BEF023-AFFF-44F5-9AA1-ECF2AAE2D5D0Q33976656-5FF6B3E5-5D16-439F-A7DD-4A7E2505BE66Q34040984-4BCFEF54-7D70-4FA9-B6A0-33CD6896F513Q34096121-DC732F4C-73E2-489C-A370-4F8508D0D49EQ34261967-01FC97E7-B5A5-4888-AB8D-502783385706Q34279939-B37F257C-43BF-4136-B689-26A0F14976E5Q34409916-5D795538-79EB-44DE-9757-3A933FA55BBEQ34421111-A6D047F9-8227-4A84-A137-BE022A5B9ECBQ34467439-C658AB06-0222-4BAB-9FDE-1DF2CFAB620DQ34549523-83361573-37A3-4F59-8C13-808F4DFFA2B4Q34889744-C902FEC2-3C83-4A29-AAE4-F9D931E2C7CEQ35181126-B785D747-3C94-4199-8055-7139346DD993Q35622241-9D57D165-76D6-49D1-BEB9-32C00D09B0C3Q35752840-908C41A8-48A2-4F12-AC8F-616566D54056Q36002516-944D4025-E69F-4E1D-9DE4-6FCD03D594C6Q36918569-3C8130FA-DB83-4331-8E86-0AA57DDD3E59Q37009407-03409EA8-F91B-48A9-9555-6258EF1BFCF1Q37402544-712AA4E9-4613-4B60-9B31-4DC32A20CA47Q37554634-827A682B-732F-4BFF-9F31-2545765B0BEBQ37699391-17A62B46-4D37-4FF3-ADAB-3CA4C076D363Q38009054-8FDEF6F0-CE64-4634-9908-001BC9F5E925Q38182810-F5091F1E-E13B-4FAF-9045-DA7870D522B1Q38192498-095B7206-7CBF-466B-953B-E85F9499A478Q40077355-FDDE0D33-4F21-496A-823C-AD5EA8DD8CAB
P2860
The evolving field of imaging mass spectrometry and its impact on future biological research.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
The evolving field of imaging ...... on future biological research.
@ast
The evolving field of imaging ...... on future biological research.
@en
type
label
The evolving field of imaging ...... on future biological research.
@ast
The evolving field of imaging ...... on future biological research.
@en
prefLabel
The evolving field of imaging ...... on future biological research.
@ast
The evolving field of imaging ...... on future biological research.
@en
P2860
P356
P1476
The evolving field of imaging ...... on future biological research
@en
P2093
Jeramie D Watrous
Pieter C Dorrestein
P2860
P304
P356
10.1002/JMS.1876
P577
2011-01-24T00:00:00Z