Hollow-Fiber Flow Field-Flow Fractionation for Mass Spectrometry: From Proteins to Whole Bacteria

被引：1

作者：

Reschiglian, Pierluigi ^{[1
,2
]}

Zattoni, Andrea ^{[1
,2
]}

Rambaldi, Diana Cristina ^{[1
,2
]}

Roda, Aldo ^{[2
,3
]}

Moon, Myeong Hee ^{[4
]}

机构：

[1] Dept Chem G Ciamician, Via Selmi 2, I-40126 Bologna, Italy

[2] I N B B Consortium, Rome, Italy

[3] Dept Pharmaceut Sci, Bologna, Italy

[4] Yonsei Univ, Dept Chem, Seoul 120749, South Korea

来源：

DETECTION OF BIOLOGICAL AGENTS FOR THE PREVENTION OF BIOTERRORISM | 2010年

关键词：

Field-flow fractionation; Hollow-fiber flow field-flow fractionation; Mass spectrometry; Proteomics Bacteria identification; Forensic analysis; MICROORGANISM IDENTIFICATION; 2-DIMENSIONAL ELECTROPHORESIS; POLYSTYRENE SULFONATES; IONIC-STRENGTH; CELLS; SEPARATION; PERFORMANCE; PROTEOMICS; RESOLUTION; RETENTION;

D O I：

10.1007/978-90-481-9815-3_2

中图分类号：

Q81 [生物工程学（生物技术）]; Q93 [微生物学];

学科分类号：

071005 ; 0836 ; 090102 ; 100705 ;

摘要：

Mass spectrometry (MS) provides analyte identification over a wide molar-mass range. However, particularly in the case of complex matrices, this ability is often enhanced by the use of pre-MS separation steps. A separation, prototype technique for the "gentle" fractionation of large/ultralarge analytes, from proteins to whole cells, is here described to reduce complexity and maintain native characteristics of the sample before MS analysis. It is based on flow field-flow fractionation, and it employs a micro-volume fractionation channel made of a ca. 20 cm hollow-fiber membrane of sub-millimeter section. The key advantages of this technique lie in the low volume and low-cost of the channel, which makes it suitable to a disposable usage. Fractionation performance and instrumental simplicity make it an interesting methodology for in-batch or on-line pre-MS treatment of such samples.

引用

页码：13 / +

页数：4

共 51 条

[1] HIGH-RESOLUTION 2-DIMENSIONAL ELECTROPHORESIS OF HUMAN-PLASMA PROTEINS [J].

ANDERSON, L ;

ANDERSON, NG .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1977, 74 (12) :5421-5425

[2] IDENTIFICATION OF BACTERIA USING MASS-SPECTROMETRY [J].

ANHALT, JP ;

FENSELAU, C .

ANALYTICAL CHEMISTRY, 1975, 47 (02) :219-225

[3] SELECTIVE ELUTION AND PURIFICATION OF LIVING TRICHOMONAS-VAGINALIS USING GRAVITATIONAL FIELD-FLOW FRACTIONATION [J].

BERNARD, A ;

BORIES, C ;

LOISEAU, PM ;

CARDOT, PJP .

JOURNAL OF CHROMATOGRAPHY B-BIOMEDICAL APPLICATIONS, 1995, 664 (02) :444-448

[4] SEPARATION OF HUMAN AND ANIMAL-CELLS BY STERIC FIELD-FLOW FRACTIONATION [J].

CALDWELL, KD ;

CHENG, ZQ ;

HRADECKY, P ;

GIDDINGS, JC .

CELL BIOPHYSICS, 1984, 6 (04) :233-251

[5]

CALDWELL KD, 2000, FIELD FLOW FRACTIONA, pCH5

[6] PROPERTIES OF HOLLOW FIBERS USED FOR FLOW FIELD-FLOW FRACTIONATION [J].

CARLSHAF, A ;

JONSSON, JA .

SEPARATION SCIENCE AND TECHNOLOGY, 1993, 28 (04) :1031-1042

[7] EFFECTS OF IONIC-STRENGTH OF ELUENT ON RETENTION BEHAVIOR AND ON THE PEAK BROADENING PROCESS IN HOLLOW FIBER FLOW FIELD-FLOW FRACTIONATION [J].

CARLSHAF, A ;

JONSSON, JA .

JOURNAL OF MICROCOLUMN SEPARATIONS, 1991, 3 (05) :411-416

[8] Applications of field-flow fractionation in proteomics: Presence and future [J].

Chmelik, Josef .

PROTEOMICS, 2007, 7 (16) :2719-2728

[9] Microorganism identification by mass spectrometry and protein database searches [J].

Demirev, PA ;

Ho, YP ;

Ryzhov, V ;

Fenselau, C .

ANALYTICAL CHEMISTRY, 1999, 71 (14) :2732-2738

[10] Bioinformatics and mass spectrometry for microorganism identification:: Proteome-wide post-translational modifications and database search algorithms for characterization of intact H-pylori [J].

Demirev, PA ;

Lin, JS ;

Pineda, FJ ;

Fenselau, C .

ANALYTICAL CHEMISTRY, 2001, 73 (19) :4566-4573

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