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本帖最后由 细胞海洋 于 2013-1-24 14:01 编辑
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Current Protocols in Cell Biology 2010年完整版 5483页
3 R5 d! O2 u" ^( ~; r9 }% j6 p2 J) z& D' b K' }
Online ISBN: 9780471143031' O- |2 j" [. O, ?- t# W
DOI: 10.1002/0471143030
( ?2 L) V5 R7 C% I2 T6 M; u6 \& v' r0 Y0 p7 o
Table of Contents
" a6 C! g3 y( L+ d1 O; O1. Preface
3 I! ~! p8 v8 t: a8 h& N2. Foreword0 y1 Q6 K! V! f r1 o4 ^
3. Chapter 1 Cell Culture
! ?3 I& L* X9 b' ~6 t8 E1. Introduction
' h! ^4 d, a8 d2. Unit 1.1 Basic Techniques in Mammalian Cell Tissue Culture: q* l" t# N; Z/ w) a0 O
3. Unit 1.2 Media for Culture of Mammalian Cells6 \1 W; c/ S& m4 t3 D5 D& I
4. Unit 1.3 Aseptic Technique for Cell Culture
. D3 j' _) u; f) q# Q5. Unit 1.4 Sterilization and Filtration. w6 G; y% Q2 X' \, S$ }
6. Unit 1.5 Assessing and Controlling Microbial Contamination in Cell Cultures
+ k4 l* q6 o6 c3 M7. Unit 1.6 Media and Culture of Yeast& P( q( [, `" P
8. Unit 1.7 BY-2 Cells: Culture and Transformation for Live Cell Imaging8 D- N* C4 f5 q0 e7 C; \
4. Chapter 2 Preparation and Isolation of Cells
7 e) L8 j# r/ q+ H1. Introduction" S4 T- F* s5 p' S+ F Y4 c9 A
2. Unit 2.1 Establishment of Fibroblast Cultures9 ?% j7 q$ p) z8 h& ^" `
3. Unit 2.2 Preparation and Culture of Human Lymphocytes) K4 o; v# A9 V" Q
4. Unit 2.3 Preparation of Endothelial Cells
* L/ f" R7 y8 c1 i- o0 |6 L5. Unit 2.4 Generation of Continuously Growing B Cell Lines by Epstein-Barr Virus Transformation; i ~8 g9 k2 K" f9 ^8 A6 r# e
6. Unit 2.5 Laser Capture Microdissection5 p# t% S" d: f( x# @% ^
7. Unit 2.6 Preparation of Human Epidermal Keratinocyte Cultures
% }! }+ v5 Y8 K J5 |2 q8. Unit 2.7 Preparation and Coculture of Neurons and Glial Cells
1 l" d, ?0 `' I d5. Chapter 3 Subcellular Fractionation and Isolation of Organelles
" f) `) Y0 h: [1. Introduction3 m7 J) ~; S" s5 C+ _
2. Introduction1 N1 J4 W! |7 v8 V, V) ~5 V
3. Unit 3.1 Overview of Cell Fractionation6 |( I z8 D* f" o
4. Unit 3.2 Isolation of Rat Hepatocyte Plasma Membrane Sheets and Plasma Membrane Domains
* T! c' o, X6 D5. Unit 3.3 Isolation of Mitochondria from Tissues and Cells by Differential Centrifugation
, Q- L4 b |, c6 u3 z7 Q9 ?; ]6. Unit 3.4 Purification of a Crude Mitochondrial Fraction by Density-Gradient Centrifugation
. o7 L) z* H5 f7 C& t7 Q/ X% H7. Unit 3.5 Isolation of Peroxisomes from Tissues and Cells by Differential and Density Gradient4 P# ~- j8 q. {+ a9 o
Centrifugation
6 E+ ?# X7 c/ t4 P" Z/ w! I% I* ^8. Unit 3.6 Isolation of Lysosomes from Tissues and Cells by Differential and Density Gradient. H$ q2 o0 S6 g
Centrifugation
* p' V: ?7 e2 F9. Unit 3.7 Overview of Subcellular Fractionation Procedures for the Yeast Saccharomyces cerevisiae7 Y0 W) i5 C6 d6 f
10. Unit 3.8 Isolation of Subcellular Fractions from the Yeast Saccharomyces cerevisiae
" N7 G/ C6 z; P* C11. Unit 3.9 Isolation of Golgi Membranes from Tissues and Cells by Differential and Density Gradient
/ ]9 T; i8 O, T2 @Centrifugation
6 B% R6 {1 @& p# z/ N2 Q! W6 s12. Unit 3.10 Isolation of Nuclei and Nuclear Membranes From Animal Tissues$ }/ T* X. v% J2 U# J: {& q
13. Unit 3.11 Free-Flow Electrophoretic Analysis of Endosome Subpopulations of Rat Hepatocytes
! ?( r3 \; i# K; _$ F# K14. Unit 3.12 Isolation of Synaptic Vesicles- D0 d0 Y8 G. E. T- @% T7 n) ? h% L
15. Unit 3.13 Isolation of Clathrin-Coated Vesicles by Differential and Density Gradient Centrifugation6 y' ^7 S7 b1 K. I, w; i
16. Unit 3.14 Isolation of Melanosomes. M# v( P' {. n0 V# J! L1 x
17. Unit 3.15 Isolation of Lipid Droplets from Cells by Density Gradient Centrifugation L$ E, t+ z" i* W
18. Unit 3.16 Isolation of Mast Cell Granules
2 d& ?, s% R: ?& {# G19. Unit 3.17 Immunoisolation of Centrosomes from Drosophila melanogaster" n2 u+ R( q; x1 K
20. Unit 3.18 Isolation of Zymogen Granules from Rat Pancreas
3 q" h& V/ [% a3 a! M! [21. Unit 3.19 Isolation of Glyoxysomes from Pumpkin Cotyledons
3 [/ X% r7 M6 ]+ D22. Unit 3.20 Isolation of GLUT4 Storage Vesicles. n; a; V3 x3 P2 B4 ]* o
23. Unit 3.21 Isolation of Intestinal Brush-Border Membranes8 v7 S+ N/ \. o3 W# {
24. Unit 3.22 Isolation and Characterization of Exosomes from Cell Culture Supernatants and Biological9 y% _$ Y3 w# J: p7 D
Fluids5 h, _+ L! X9 J" y
25. Unit 3.23 Isolation of Intermediate Filaments: C3 X' J4 h6 E) _. M7 S5 l0 @
26. Unit 3.24 Isolation of T-Tubules from Skeletal Muscle
+ k5 }- ?( m, t r$ \( {27. Unit 3.25 Isolation of Myelin
7 M; v2 w. s: M! M/ B# \! b9 [ z28. Unit 3.26 Isolation of Renal Brush Borders
4 _% w* {( q$ G* k, a/ |5 Z29. Unit 3.27 Isolation of Endoplasmic Reticulum, Mitochondria, and Mitochondria-Associated Membrane
( _8 ~9 C" ?$ R1 V7 I: iFractions from Transfected Cells and from Human Cytomegalovirus-Infected Primary Fibroblasts
; ^4 X, i( }: E L30. Unit 3.28 Isolation of Amyloplasts, r# K; n& Y' O5 u5 v& a
31. Unit 3.29 Isolation of Microtubules and Microtubule Proteins
( r: U. F7 c9 D# C' Z& q32. Unit 3.30 Purification of Intact Chloroplasts from Arabidopsis and Spinach Leaves by Isopycnic
( c# c/ b; ?8 i, l; [1 ~Centrifugation9 R( E5 H d+ d P( M' S
33. Unit 3.31 Isolation of Neuromelanin Granules& q* c/ d4 S9 @9 G( k2 d k
34. Unit 3.32 Isolation of Dense Core Secretory Vesicles from Pancreatic Endocrine Cells by Differential and9 M( P2 b' I" y! O- l7 \1 F# @2 {
Density Gradient Centrifugation& e: X% b% t ~6 T
35. Unit 3.33 Isolation and Biochemical Characterization of Amyloid Plaques and Paired Helical Filaments
# r7 S. A5 a0 d% E; [! i36. Unit 3.34 Isolation of Legionella-Containing Vacuoles by Immuno-Magnetic Separation
: o1 O" y% Y. ^! c+ z& D37. Unit 3.35 Isolation of Platelet Granules
5 P3 p, B5 [8 t38. Unit 3.36 Isolation of Nucleoli3 x# n* `+ x, O8 G
39. Unit 3.37 Isolation of Cytotoxic T Cell and NK Granules and Purification of Their Effector Proteins/ @1 ?1 H& s- ]4 n( I( I& q4 F2 L$ H
40. Unit 3.38 Isolation of Aggresomes and Other Large Aggregates5 N' ~6 {- g5 c2 {* W
41. Unit 3.39 Isolation of Chromaffin Granules
3 f% ~5 G ]1 C7 W9 I4 h42. Unit 3.40 Purification of Ribosomes from Human Cell Lines) _7 d' H0 W9 I5 {
6. Chapter 4 Microscopy8 t) s* I! |" t
1. Introduction
. r# T/ A& G& R% j/ [6 E" m2. Unit 4.1 Proper Alignment and Adjustment of the Light Microscope
9 Q# x$ U7 j- _+ e3. Unit 4.2 Fluorescence Microscopy
$ f7 }6 S: f6 W" L" G4. Unit 4.3 Immunofluorescence Staining
6 ?5 w+ t* B% D+ ~* M' @5. Unit 4.4 Fluorescent Staining of Subcellular Organelles: ER, Golgi Complex, and Mitochondria! R+ C p( l5 z/ A+ X
6. Unit 4.5 Basic Confocal Microscopy
' j& Q3 a$ l6 t5 s# e7. Unit 4.6 Immunoperoxidase Methods for Localization of Antigens in Cultured Cells and Tissues( |: C! O) E% R h% t0 A
8. Unit 4.7 Cryo-Immunogold Electron Microscopy
7 [& N; P* u ^1 Q7 f# b% a0 f9. Unit 4.8 Correlative Video Light/Electron Microscopy$ [7 L0 f9 w, V2 w0 Y& z% x
10. Unit 4.9 Polarization Microscopy+ T, m, ~* H* m
11. Unit 4.10 Fluorescent Speckle Microscopy (FSM) of Microtubules and Actin in Living Cells
# q+ X1 i: k5 a2 y9 V# J! k12. Unit 4.11 Two-Photon Excitation Microscopy for the Study of Living Cells and Tissues
% D& ^6 A! B' w13. Unit 4.12 Total Internal Reflection Fluorescence Microscopy for High-Resolution Imaging of Cell-Surface
& o; _; A& l) i; eEvents
" w9 j: G* w& i0 D14. Unit 4.13 Fluorescent Labeling of Yeast
( H3 @6 M2 t7 U# F15. Unit 4.14 Fluorescence Lifetime Imaging Microscopy5 t2 v* q/ |( B s- O2 Q( t: |
16. Unit 4.15 Biological Second and Third Harmonic Generation Microscopy
' s- k% K7 Q9 u) j; `17. Unit 4.16 Analyzing Real-Time Video Microscopy: The Dynamics and Geometry of Vesicles and Tubules, Y" b6 y$ K( m6 y* d: K
in Endocytosis
, Q. L7 E# [3 e4 f+ m9 O6 W18. Unit 4.17 Scanning Electron Microscopy of Cell Surface Morphology
: l1 L9 y+ M7 r! r( Q, b% ?5 K19. Unit 4.18 Fluorescence Imaging Techniques for Studying Drosophila Embryo Development
6 W) X' M4 U; z, d, O4 N$ W0 k; V# Z20. Unit 4.19 Quantitative Colocalization Analysis of Confocal Fluorescence Microscopy Images( m$ ]4 Q9 y2 ^6 P8 L1 P* P
21. Unit 4.20 Visualizing Protease Activity in Living Cells: From Two Dimensions to Four Dimensions
2 s8 d% t0 c* ?4 |6 z q22. Unit 4.21 Photoactivated Localization Microscopy (PALM) of Adhesion Complexes
, U) z: @; \0 D% w1 I. H, G23. Unit 4.22 Culturing MDCK Cells in Three Dimensions for Analyzing Intracellular Dynamics
5 \4 j+ j; V& P l$ L) ?/ z24. Unit 4.23 Interference Reflection Microscopy
1 r; b; u9 O# t1 A: [25. Unit 4.24 Fluorescence Correlation Spectroscopy in Living Cells: A Practical Approach3 p6 F2 d. p: z- _. s
26. Unit 4.25 Analysis of Mitochondrial Dynamics and Functions Using Imaging Approaches
2 h1 l/ {; c& P6 H! }27. Unit 4A Organelle Atlas: Appendix to Chapter 4
5 v% u4 ?6 u% A { ?- n- Q7 J7. Chapter 5 Characterization of Cellular Proteins0 O% R# J1 ]8 i& |3 T
1. Introduction
3 M( q% n5 k- s5 F2. Unit 5.1 Overview of the Physical State of Proteins Within Cells2 {- I% I' G9 L3 v
3. Unit 5.2 Determining the Topology of an Integral Membrane Protein
- D# v4 S/ j4 I6 \+ b5 N1 D4. Unit 5.3 Determination of Molecular Size by Zonal Sedimentation Analysis on Sucrose Density Gradients
! |7 Y2 g' b8 g4 U/ O5. Unit 5.4 Analysis of the Association of Proteins with Membranes2 }! C. F# j9 K! |0 t0 V: |
6. Unit 5.5 Determination of Molecular Size by Size-Exclusion Chromatography (Gel Filtration)$ }# W& B+ v# w, X6 T2 |" g9 a! F
7. Unit 5.6 Identification of Proteins in Complex Mixtures Using Liquid Chromatography and Mass
1 k& E1 }6 Q$ A% P& e. o x1 g) N8 ASpectrometry/ L$ c3 V) O+ ?/ P9 T3 a
8. Unit 5.7 Determining Membrane Protein Topologies in Single Cells and High-Throughput Screening1 z6 {0 E8 I. }! b0 }! F. J6 X; H
Applications
0 i: ?1 ?$ ?2 ]3 D3 M: `8. Chapter 6 Electrophoresis and Immunoblotting
& X4 K" Y7 h8 U) S$ L# y1. Introduction) i& t! j2 d/ j" W8 a" G
2. Unit 6.1 One-Dimensional SDS Gel Electrophoresis of Proteins& i3 B$ x5 b' J( V/ G% _
3. Unit 6.2 Immunoblotting and Immunodetection% K- N; k& Q, L1 q3 t) H
4. Unit 6.3 Detection and Quantitation of Radiolabeled Proteins in Gels and Blots, L" k2 c3 [/ Z; }) O6 b& |
5. Unit 6.4 Two-Dimensional Gel Electrophoresis
: r: S5 n+ F o" S: F/ g' t+ }3 B, P6. Unit 6.5 One-Dimensional Electrophoresis Using Nondenaturing Conditions
' T5 v' [# I- I7. Unit 6.6 Staining Proteins in Gels0 C* U& Z" J! c+ f. o# X
8. Unit 6.7 Agarose Gel Electrophoresis of Proteins
8 T, L0 o/ x: j5 g4 z- ]7 L9. Unit 6.8 Fluorescence Detection of Glycoproteins in Gels and on Electroblots
( F/ B, }# C1 X1 G10. Unit 6.9 Digital Electrophoresis Analysis1 x/ h$ }3 q! ^+ S0 h. N1 W8 A
11. Unit 6.10 Two-Dimensional Blue Native Polyacrylamide Gel Electrophoresis v0 L* c& Q( z3 u9 i# d
12. Unit 6.11 Measurement of Oxidatively-Induced Clustered DNA Lesions Using a Novel Adaptation of+ q+ `3 {7 O; l+ Z3 r
Single Cell Gel Electrophoresis (Comet Assay)+ l& r8 _! r3 n
9. Chapter 7 Protein Labeling and Immunoprecipitation
+ a2 X! z0 m. _8 ]; P- x- h1. Introduction. Q2 H$ o; G; x8 w' s$ z
2. Unit 7.1 Metabolic Labeling with Amino Acids
4 i1 T2 A2 B8 H! k3. Unit 7.2 Immunoprecipitation" q- T' C: x: }$ X* m
4. Unit 7.3 Metabolic Labeling with Sulfate
, d/ l% t3 o4 W* P: i+ I5. Unit 7.4 Metabolic Labeling with Fatty Acids% h* J2 _0 e. A8 Q+ x5 U+ k
6. Unit 7.5 Metabolic Labeling of Prenyl and Carboxyl-Methyl Groups
* h+ d; Z2 M9 v8 Z2 r7. Unit 7.6 Metabolic Labeling and Immunoprecipitation of Yeast Proteins9 n' c- c6 K- {8 \9 E
8. Unit 7.7 Metabolic Labeling and Immunoprecipitation of Drosophila Proteins; C. H4 w" S9 i: w9 w: }. K( }$ E
9. Unit 7.8 Metabolic Labeling of Glycoproteins with Radioactive Sugars
4 `$ b& d; n' ?8 k% C$ v m10. Unit 7.9 Analysis of Oxidative Modification of Proteins
; Y0 J X$ a+ x- U: _4 }1 c11. Unit 7.10 Radioiodination of Cellular Proteins
3 f. B, p4 H7 d' [1 j1 U6 \10. Chapter 8 Cell Cycle Analysis
- Q' P0 G- W, C/ r3 z% n5 [( [1. Introduction
( r" ~1 r4 W2 j* W5 e; y2. Unit 8.1 Overview of the Cell Cycle% m; V# F, C' X3 {5 A/ |9 V; k
3. Unit 8.2 Assays for CDK Activity and DNA Replication in the Cell Cycle
' B5 n" q; C0 ]: w4. Unit 8.3 Methods for Synchronizing Cells at Specific Stages of the Cell Cycle
. ?+ g* C( T3 C& l5. Unit 8.4 Determining Cell Cycle Stages by Flow Cytometry
2 k6 {: H! x5 W7 O3 d E6. Unit 8.5 Centrifugal Elutriation to Obtain Synchronous Populations of Cells( E I; o( V$ b9 v3 ?: I$ l
7. Unit 8.6 Dynamic Proliferation Assessment in Flow Cytometry& Y. K5 H' n' I5 v0 c; r; M
11. Chapter 9 Cell Adhesion
4 A& `4 {1 h% J5 F4 V1. Introduction7 `' Y/ ?" K& r% F
2. Unit 9.1 Cell-Substrate Adhesion Assays
% P$ W2 j( ^4 [3. Unit 9.2 Quantitative Measurement of Cell Adhesion Using Centrifugal Force
5 S. Y( m+ G* y6 H4. Unit 9.3 Cadherin-Dependent Cell-Cell Adhesion9 z4 i6 q7 [* C4 T
5. Unit 9.4 Analyzing Integrin-Dependent Adhesion
* y. M7 c/ e: k8 V5 }; b1 G6. Unit 9.5 Analysis of Cell-Cell Contact Mediated by Ig Superfamily Cell Adhesion Molecules
/ n# c5 _8 i6 V7 Q( Y. g7 @1 R, _* S( C7. Unit 9.6 Measurement of Adhesion Under Flow Conditions! \& N) M) y' c3 B
12. Chapter 10 Extracellular Matrix
& d' b! n$ v7 p1. Introduction
* ~; G- M* G* C b' [9 H/ s2. Unit 10.1 Overview of Extracellular Matrix
" N) U1 h- C$ J( h `$ Z2 D$ K3. Unit 10.2 Preparation of Basement Membrane Components from EHS Tumors' B0 n- z% P$ Z4 ~
4. Unit 10.3 Preparation of Gelled Substrates
9 q9 ^2 Q: A) r2 V( Z5. Unit 10.4 Preparation of Extracellular Matrices Produced by Cultured Corneal Endothelial and PF-HR9
. M- l9 o9 Z: H+ Q" h7 WEndodermal Cells
* ?$ r; h" K1 h- V& J E6. Unit 10.5 Purification of Fibronectin
3 t3 q3 l, M) a% ~2 F7. Unit 10.6 Purification of Vitronectin
! K* b* k0 c% E0 ^' Q! |8. Unit 10.7 Proteoglycan Isolation and Analysis0 v. Q& j& B6 H: o, E$ \
9. Unit 10.8 Matrix Metalloproteinases; r1 P: p# ^4 V3 M! D- H3 f
10. Unit 10.9 Preparation of Extracellular Matrices Produced by Cultured and Primary Fibroblasts5 {) d- U, n; M4 k( g% [, |
11. Unit 10.10 Purification and Analysis of Thrombospondin-1% I6 X: ?0 Z: X1 T+ e$ ^
12. Unit 10.11 Purification of SPARC/Osteonectin
2 i8 L7 o) x' X8 M% }$ v1 U: X13. Unit 10.12 Analysis of Fibronectin Matrix Assembly
( E% j( W) v) @7 j; e14. Unit 10.13 Non-Radioactive Quantification of Fibronectin Matrix Assembly I/ B! s" w6 j' O2 H
15. Unit 10.14 Use of Hyaluronan-Derived Hydrogels for Three-Dimensional Cell Culture and Tumor" w6 m3 F/ X0 Z# a$ F' d: e' `
Xenografts+ H1 a9 l9 b+ r, T
16. Unit 10.15 Generation of Micropatterned Substrates Using Micro Photopatterning
. T. t4 d- @. A% E" q' x# Z17. Unit 10.16 Preparation of Hydrogel Substrates with Tunable Mechanical Properties) ?; w, ?' Z$ P8 E8 u8 g
18. Unit 10.17 Engineering Three-Dimensional Collagen Matrices to Provide Contact Guidance during 3D
S7 s8 I9 W5 f2 d& `! eCell Migration% _# L' N, ?6 ^+ b; Q$ g
19. Unit 10.18 Imaging Cells in Three-Dimensional Collagen Matrix( Y2 ]8 M, O- ]% @
13. Chapter 11 In Vitro Reconstitution2 ^+ y5 e8 `( _0 H- D
1. Introduction
' s6 ^: {5 p$ d0 P/ g! {2. Unit 11.1 Overview of Eukaryotic In Vitro Translation and Expression Systems) b+ S% k% |/ C m& ~$ W
3. Unit 11.2 In Vitro Translation, Q0 r* `9 F) V" ~: R1 K& Q! W
4. Unit 11.3 In Vitro Analysis of Endoplasmic-Reticulum-to-Golgi Transport in Mammalian Cells3 [% O( w6 C- ?$ V8 y) _
5. Unit 11.4 Cotranslational Translocation of Proteins into Canine Rough Microsomes
) j: w3 o0 d) l, X2 Z& N1 q6. Unit 11.5 In Vitro Analysis of SV40 DNA Replication
6 x, g4 Q8 W6 G7 J7 o1 c7. Unit 11.6 In Vitro Transcription
6 g' L1 _: i/ d* d8. Unit 11.7 Nuclear Import in Digitonin-Permeabilized Cells+ T/ l8 o2 J x; d8 j& [; |
9. Unit 11.8 In Vitro Translation Using HeLa Extract
" d0 U; O5 D) O( q. n7 o2 N/ ] {5 x10. Unit 11.9 Analysis of Eukaryotic Translation in Purified and Semipurified Systems( h) r! b7 \/ _* D1 w9 {+ Z
11. Unit 11.10 Preparation and Use of Interphase Xenopus Egg Extracts
5 `' k& N6 N' B- Y! e! R12. Unit 11.11 Analysis of the Cell Cycle Using Xenopus Egg Extracts' @4 x4 |9 o* A3 X) u! ?
13. Unit 11.12 Analysis of Apoptosis Using Xenopus Egg Extracts
3 A& g* e; w* p! d! G1 E14. Unit 11.13 Mitotic Spindle Assembly In Vitro
$ }2 u# x% p; x- T8 ~9 e15. Unit 11.14 Analysis of RNA Export Using Xenopus Oocytes
_" i6 n6 a, e2 g16. Unit 11.15 In Vitro Analysis of Peroxisomal Protein Import% D) t0 ]! a& D1 b/ a0 @* l
17. Unit 11.16 In Vitro Analysis of Chloroplast Protein Import
/ N2 U4 x5 ~5 S7 U0 i/ Z18. Unit 11.17 In Vitro RNA Splicing in Mammalian Cell Extracts
+ E$ K3 s8 u# Y! B0 f$ ?( |19. Unit 11.18 Endocytosis Assays in Intact and Permeabilized Cells- z' f# [5 G; |
20. Unit 11.19 In Vitro Analysis of Yeast Mitochondrial Protein Import; U5 z; s: c' [+ b0 [
14. Chapter 12 Cell Motility j) R: B2 U6 I" B
1. Introduction
1 O4 b: o4 U7 t2. Unit 12.1 Chemotaxis Assays for Eukaryotic Cells
! K1 I4 t$ q* v2 ~5 W3. Unit 12.2 Invasion Assays
5 ^5 [' e6 T' x" H% f3 `# M- [4. Unit 12.3 Cell Traction7 g7 V* `* |: D A9 o
5. Unit 12.4 Cell Wound Assays
$ v' f `3 P3 l; r5 v; _+ q2 k6. Unit 12.5 Dictyostelium Cell Dynamics
- r; k! m; h, f. a: K' p7. Unit 12.6 Optical Microscopy.Based Migration Assay for Human Neutrophils
4 X: Z1 g2 c: M$ P3 x8. Unit 12.7 Actin-Based Motility Assay4 H0 r% t1 ~; F. _
9. Unit 12.8 In Vivo Marking of Single Cells in Chick Embryos Using Photoactivation of GFP& v8 ~# e4 L& I( x4 G; U
15. Chapter 13 Organelle Motility
9 u% I. w* D8 c3 W- [! f1. Introduction0 R% \2 r+ T! }6 O& G/ k
2. Unit 13.1 Microtubule/Organelle Motility Assays- M) S' u: u* c, ]3 X" Y5 I, L
3. Unit 13.2 In Vitro Motility Assay to Study Translocation of Actin by Myosin' k& `8 E( a L, P% w' i& m. U0 N* {
4. Unit 13.3 Organelle Motility in Plant Cells: Imaging Golgi and ER Dynamics with GFP( }8 p( m% d" O: |7 b8 T
5. Unit 13.4 Movement of Nuclei
% X$ m1 N! I. e3 \1 N. W6. Unit 13.5 Measuring Dynamics of Nuclear Proteins by Photobleaching
$ u+ E5 ~+ Q& ]" M7. Unit 13.6 Functional Characterization of Proteins Regulating Actin Assembly5 t( K1 q7 O& N- o
16. Chapter 14 Signal Transduction: Protein Phosphorylation3 P, Q9 x/ [: }6 R
1. Introduction
~1 A% H( j. E( \" \& V) e2. Unit 14.1 Overview of Protein Phosphorylation8 T& U; |7 d: S. e6 B% ^/ P( w% R
3. Unit 14.2 Immunological Detection of Phosphorylation9 U" H+ [: j4 t
4. Unit 14.3 The Detection of MAPK Signaling$ A6 v: t, c2 }" M
5. Unit 14.4 Labeling Cultured Cells with 32Pi and Preparing Cell Lysates for Immunoprecipitation* z. y' Y2 I# i: \/ R
6. Unit 14.5 Phosphoamino Acid Analysis
6 U. d. J, ~# T9 R7 Z# P; t3 L+ M7. Unit 14.6 Determination of Akt/PKB Signaling
2 t1 A( T6 Y! ~" I! A9 c9 @8. Unit 14.7 Analyzing FAK and Pyk2 in Early Integrin Signaling Events
! v u) P. X- E7 t9. Unit 14.8 Rho GTPase Activation Assays/ t3 V( W5 |' a+ f) [0 ? E
10. Unit 14.9 In Vitro GEF and GAP Assays
5 {5 o+ m' j" r11. Unit 14.10 In Vivo Imaging of Signal Transduction Cascades with Probes Based on Forster Resonance$ [/ s( p; o# E$ Z
Energy Transfer (FRET)6 u: E6 H) H3 x* R0 o9 _
12. Unit 14.11 Biosensors for Characterizing the Dynamics of Rho Family GTPases in Living Cells. E& D- E$ T% J* M
13. Unit 14.12 Analysis of Arf GTP-Binding Protein Function in Cells
4 t- x7 U0 n! c+ R4 T6 `17. Chapter 15 Protein Trafficking
& w5 A+ x! I/ P6 |1. Introduction3 H; }% k" F6 o4 e0 p+ A
2. Unit 15.1 Overview of Protein Trafficking in the Secretory and Endocytic Pathways% A% H2 ]' u- l! {( v$ F
3. Unit 15.2 Use of Glycosidases to Study Protein Trafficking
4 _9 W0 i+ R) F4. Unit 15.3 Endocytosis: Biochemical Analyses
( V" O' | [* s& v0 |# i: T; O$ h5. Unit 15.4 Determining Protein Transport to the Plasma Membrane
) \# M: B0 a8 A1 e6. Unit 15.5 Analysis of Membrane Traffic in Polarized Epithelial Cells3 V' F& s1 s( K4 K9 m( c
7. Unit 15.6 Analysis of Protein Folding and Oxidation in the Endoplasmic Reticulum
' F. l$ a: y( N" B7 q' y9 |, \( s8. Unit 15.7 Measurements of Phagocytosis and Phagosomal Maturation
3 w' w7 A* V' [, {7 r9. Unit 15.8 Analysis of Protein Transport to Lysosomes' d6 B5 s* P3 q! o$ C$ x2 h
10. Unit 15.9 Studies of the Ubiquitin Proteasome System% { ~& U: m6 j: Z0 ]9 i9 \
11. Unit 15.10 Measuring Retrograde Transport to the Trans-Golgi Network
- t+ k1 `! M* [ Q* [12. Unit 15.11 Assays for Regulated Exocytosis of Mast Cell Granules
; O) ]1 ^) T* q1 X9 X) y) R3 p13. Unit 15.12 Analysis of Regulated Secretion Using PC12 Cells
& T% p0 j' U/ r4 @. X14. Unit 15.13 Analysis of Endocytic Trafficking by Single-Cell Fluorescence Ratio Imaging$ S$ O2 W* y$ A& O5 G, p: B
15. Unit 15.14 Quantitative Analysis of Endocytosis and Turnover of Epidermal Growth Factor (EGF) and, z! u: c, p9 o$ _* n" C4 ]
EGF Receptor
' R( t# R4 C7 }/ G# |1 F16. Unit 15.15 Documenting GLUT4 Exocytosis and Endocytosis in Muscle Cell Monolayers+ X" F3 m3 h: E% }& ^) }$ `
18. Chapter 16 Antibodies as Cell Biological Tools
7 B% c+ _- C) Q! E! B" b! Q; `2 F1. Introduction! B. l" ]! j/ D
2. Unit 16.1 Production of Monoclonal Antibodies
, ? p9 V4 [, M, t) b- n' a% h/ f% J3. Unit 16.2 Production of Polyclonal Antisera
! r$ }, e: Z+ ]9 l1 J4. Unit 16.3 Purification of Immunoglobulin G% f5 F3 I( c" h* o: N7 g3 U
5. Unit 16.4 Fragmentation of Immunoglobulin G5 n5 Y( w# l9 |- w' y
6. Unit 16.5 Antibody Conjugates for Cell Biology( h+ k, @1 J& K
7. Unit 16.6 Production of Antibodies That Recognize Specific Tyrosine-Phosphorylated Peptides
4 W) U3 \4 j, E19. Chapter 17 Macromolecular Interactions in Cells, X) k+ I# u, O
1. Introduction; Q2 L: {1 S, l- j& _
2. Unit 17.1 Imaging Protein-Protein Interactions by Fluorescence Resonance Energy Transfer (FRET) E8 G8 m8 c$ j l
Microscopy7 O$ W9 R7 Q$ N5 D ^# [! z
3. Unit 17.2 Identification of Protein Interactions by Far Western Analysis
/ u% W! t" w3 W( v6 o3 z3 c, R" \+ W: p4. Unit 17.3 Interaction Trap/Two-Hybrid System to Identify Interacting Proteins# a6 t/ V) E2 f) P# k
5. Unit 17.4 Mapping Protein-Protein Interactions with Phage-Displayed Combinatorial Peptide Libraries
+ v- w- z2 f: A2 K1 L' ]/ j6. Unit 17.5 Protein-Protein Interactions Identified by Pull-Down Experiments and Mass Spectrometry
, E, ^( H! X4 ^# P" U) ~- E4 a7. Unit 17.6 Measuring Protein Interactions by Optical Biosensors: R0 s$ ?: s! i1 R. a2 o
8. Unit 17.7 Chromatin Immunoprecipitation for Determining the Association of Proteins with Specific- v* I6 o. S' e: W* ]; \5 F A
Genomic Sequences In Vivo
" o: b( x9 s/ [ ~9. Unit 17.8 Isothermal Titration Calorimetry
" d. z) a Z3 H4 L& _" Z10. Unit 17.9 Rational Design and Evaluation of FRET Experiments to Measure Protein Proximities in Cells) D* j4 J' |8 g6 f# g) Y/ y
11. Unit 17.10 Identification and Analysis of Multiprotein Complexes Through Chemical Crosslinking
: |. s$ p( X$ Z: F/ h* \+ W12. Unit 17.11 Visualization of RNA Using Fluorescence Complementation Triggered by Aptamer-Protein
& p# `/ v: e5 x Y7 @Interactions (RFAP) in Live Bacterial Cells
" y- z/ v# u3 `% D20. Chapter 18 Cellular Aging and Death; V. L7 O! T t; M1 |3 H
1. Introduction1 n$ O4 k0 a' M* S. a
2. Unit 18.1 Current Concepts in Cell Death
2 l! H9 w5 Y6 i, p3. Unit 18.2 Analysis of Caspase Activation During Apoptosis R0 q% @) g+ t# `3 J8 Q' [
4. Unit 18.3 Assessment of Apoptosis and Necrosis by DNA Fragmentation and Morphological Criteria. E+ K1 K3 q. w! S
5. Unit 18.4 Quantitative Fluorescence In Situ Hybridization (Q-FISH)2 F6 v. O, ?$ f: p r5 }' k9 `' ?
6. Unit 18.5 Analysis of Mitochondrial Dysfunction During Cell Death- _/ Q# a$ e+ n" k2 j
7. Unit 18.6 Analysis of Telomeres and Telomerase
' V$ @ `$ O' g! U8. Unit 18.7 Nonisotopic Methods for Determination of Poly(ADP-Ribose) Levels and Detection of
9 T+ D& z1 G# rPoly(ADP-Ribose) Polymerase. B5 r; G. ~2 ^2 w* e8 }9 p! H# z1 t
9. Unit 18.8 Flow Cytometry of Apoptosis
! G. c2 H0 ?# E7 m10. Unit 18.9 Analysis of Cellular Senescence in Culture In Vivo: The Senescence-Associated -Galactosidase
, Z/ y o* f. X7 eAssay4 J5 b# d l8 z. l& v# a
11. Unit 18.10 High-Throughput Live Cell Imaging of Apoptosis4 A3 |) i& G/ ]/ r1 K) K
21. Chapter 19 Whole Organism and Tissue Analysis6 y- j( |$ b# D( S$ M
1. Introduction8 V; q; ?7 q y: e
2. Unit 19.1 Overview of Metastasis Assays! O- h: F$ ~* {7 l6 W! {
3. Unit 19.2 Tail Vein Assay of Cancer Metastasis1 s' h( \1 W; D: x; e! N- |( I
4. Unit 19.3 Microanalysis of Gene Expression in Tissues Using T7-SAGE: Serial Analysis of Gene, t6 _5 v- l3 c* B
Expression After High-Fidelity T7-Based RNA Amplification
, W& F& W' F5 f5. Unit 19.4 SAGE Analysis from 1 兪g of Total RNA! Q+ Y5 u V. X1 `9 T6 `$ q0 X
6. Unit 19.5 The Chick Chorioallantoic Membrane as an In Vivo Angiogenesis Model
( l- ?! ~7 R* s( E7. Unit 19.6 Experimental Metastasis Assays in the Chick Embryo) Z* Z# m% O& ], F/ B
8. Unit 19.7 Imaging Tumor Cell Movement In Vivo
+ `8 s4 g O5 V# Y# k0 X9. Unit 19.8 Embryonic Organ Culture, `, A# a* Q1 Z; m6 c( q
10. Unit 19.9 Three-Dimensional Tissue Models of Normal and Diseased Skin- ?% c% Z3 q. n8 m! s- r6 d
11. Unit 19.10 Overview: Engineering Transgenic Constructs and Mice6 ~& A& W$ V& u- y- N4 V; ^
12. Unit 19.11 Generation of Transgenic Mice
. s; Q9 |% H4 Z% [3 J7 b+ [8 C& k13. Unit 19.12 Overview: Generation of Gene Knockout Mice
5 |* X$ y9 f6 E: |# ~; ^% v4 P; d14. Unit 19.13 Manipulation of Mouse Embryonic Stem Cells for Knockout Mouse Production% S& `4 F2 o, g5 a5 Y2 ?
15. Unit 19.14 Generation of Gene Knockout Mice by ES Cell Microinjection7 a, j9 Z( `0 b, g0 {8 M
22. Chapter 20 Expression and Introduction of Macromolecules into Cells1 k, @* f, D, F3 H9 y' p- {( |: A- ]
1. Introduction
8 h) J N& j2 l! t( W0 K2. Unit 20.1 Direct Introduction of Molecules into Cells
" h7 }, ~- b& l$ L3. Unit 20.2 Protein Transduction: Generation of Full-Length Transducible Proteins Using the TAT System3 ^8 ^& p. C( E# ]
4. Unit 20.3 Calcium Phosphate Transfection
8 P2 u" i* y, n) y5 U' a0 W5. Unit 20.4 Transfection Using DEAE-Dextran3 J' o5 z' i" T: }5 {9 D5 Q4 p
6. Unit 20.5 Transfection by Electroporation6 R- x+ ]5 B/ e d3 ^/ P! F* k9 k
7. Unit 20.6 Transfection of Cultured Eukaryotic Cells Using Cationic Lipid Reagents
+ V4 A# t0 H5 q0 t) _8. Unit 20.7 Optimization of Transfection
, e7 z8 A# L i. d0 s9. Unit 20.8 Inducible Gene Expression Using an Autoregulatory, Tetracycline-Controlled System
9 W% H3 d( `5 V9 g2 W0 V23. Chapter 21 Fluorescent Protein Technology- C+ p+ ]* T- V u% p$ }4 D! d
1. Introduction( Y5 _0 a8 j% A0 P, Y5 o u- C6 q
2. Unit 21.1 Measuring Protein Mobility by Photobleaching GFP Chimeras in Living Cells
, O* X# {: q, v# F3. Unit 21.2 Fluorescence Localization After Photobleaching (FLAP)
0 S* W; v/ j$ k; p* c4. Unit 21.3 Visualization of Protein Interactions in Living Cells Using Bimolecular Fluorescence$ n$ v ~% D" Y
Complementation (BiFC) Analysis
1 X" W1 L( g- t& _+ y) ]( n5. Unit 21.4 Design and Use of Fluorescent Fusion Proteins in Cell Biology
2 M' \( w2 X" ]9 a6. Unit 21.5 The Fluorescent Protein Color Palette( `; `0 ]6 a" Q& K) H) F. _
7. Unit 21.6 Photoactivation and Imaging of Photoactivatable Fluorescent Proteins
8 E$ U+ p/ V# p24. Chapter 22 Cell Biology of Chromosomes and Nuclei5 e5 }$ C, ?/ t1 {# f
1. Introduction4 a0 P$ J; l! f9 D* X: x5 v3 `
2. Unit 22.1 Overview of Cytogenetic Chromosome Analysis
! z- q {. ]% z9 |3. Unit 22.2 Preparation of Cytogenetic Specimens from Tissue Samples7 M' U/ D* f# h7 T5 F5 }
4. Unit 22.3 Traditional Banding of Chromosomes for Cytogenetic Analysis0 H- u& w. E# E
5. Unit 22.4 Fluorescence In Situ Hybridization (FISH)
" [6 F! W7 @! o7 z! {' A2 m6. Unit 22.5 Multi-Color FISH Techniques9 m2 ]+ `* N1 g' I
7. Unit 22.6 Comparative Genomic Hybridization. ]- t. x. _) y! R3 r& w) J
8. Unit 22.7 Sister Chromatid Exchange" P- ]1 J# G3 C0 L$ Y2 S% y8 K
9. Unit 22.8 Detection of Mitotic Figures and Components of the Mitotic Machinery
4 q1 x' }. [) e9 y I2 N10. Unit 22.9 Assembly and Micromanipulation of Xenopus In Vitro.Assembled Mitotic Chromosomes: g; N: i* }1 N# H
11. Unit 22.10 Replication Labeling with Halogenated Thymidine Analogs
: G# U: a+ e$ A4 K& Y5 L% M12. Unit 22.11 Assays for Ribosomal RNA Processing and Ribosome Assembly7 ?/ m7 P& I9 s
13. Unit 22.12 Visualization and Measurement of DNA Methyltransferase Activity in Living Cells
" Q+ V: E' C8 h14. Unit 22.13 Monitoring mRNA Export
' A& u. k. e5 B0 z" Y15. Unit 22.14 Analysis of DNA Replication in Saccharomyces cerevisiae by Two-Dimensional and Pulsed-4 b/ e7 [& _- P9 N( m; e+ ?' |5 v
Field Gel Electrophoresis
5 I( i' X. M* |! L25. Chapter 23 Stem Cells. o/ r2 k3 N b
1. Introduction
$ Z) i1 H2 E+ o+ t5 V2. Unit 23.1 Stem Cells: An Overview
& N" P E3 [0 d* R. J+ x3. Unit 23.2 Mouse Embryonic Stem Cell Derivation, and Mouse and Human Embryonic Stem Cell Culture
5 ?0 {" @8 q/ A. c2 V5 C7 s# Pand Differentiation as Embryoid Bodies
2 A: Z& N M) Y! S: j2 q& _4. Unit 23.3 Maintenance and In Vitro Differentiation of Mouse Embryonic Stem Cells to Form Blood- c1 \0 ]* P/ X6 q2 [
Vessels Y3 i: p2 U, g3 J" l4 t+ g4 t6 S8 `
5. Unit 23.4 Differentiation of Mouse Embryonic Stem Cells and of Human Adult Stem Cells into
/ Z5 g1 T X1 `9 m$ QAdipocytes
. ~6 Z+ W3 v d) B, ?' X4 `' z. t6. Unit 23.5 Induction of ES Cell.Derived Cartilage Formation
) }; N. Y- b8 w2 j; q6 |1 H7. Unit 23.6 Hematoendothelial Differentiation of Human Embryonic Stem Cells
) j. C& a1 D' F2 ]2 ~& d- W8. Unit 23.7 Neural Differentiation of Human ES Cells
) D5 A* N* m; t3 }26. Chapter 24 Lipids5 i ~/ ^0 h2 X8 Z
1. Introduction8 i) q8 Y: V6 }1 U0 n
2. Unit 24.1 Using Fluorescent Sphingolipid Analogs to Study Intracellular Lipid Trafficking; P% ~1 C# E2 s6 }" z8 ]
3. Unit 24.2 Fluorescent Detection of Lipid Droplets and Associated Proteins( E6 i% B U, t9 x- B
4. Unit 24.3 Making Giant Unilamellar Vesicles via Hydration of a Lipid Film& p, k- N% x( {9 ~5 S5 y0 u
5. Unit 24.4 Visualization of Cellular Phosphoinositide Pools with GFP-Fused Protein-Domains1 \( C( q4 _( Z* Z; ?& {
27. Chapter 25 Nanotechnology, u. e9 ^: z6 ~3 b- c8 ?, B
1. Introduction- }* `1 v0 |/ Q: z! j g4 B
2. Unit 25.1 In Vivo Imaging Using Quantum Dot.Conjugated Probes b# ^1 }. K$ {/ {2 V+ f6 d2 h
3. Unit 25.2 Fabrication and Application of Nanofibrous Scaffolds in Tissue Engineering0 I% l/ u" \2 q
28. Chapter 26 Viruses
% H: Y& W/ y9 z3 o# O! E1. Introduction( k% T/ q8 E! j" A! o! p
2. Unit 26.1 Production of Papillomavirus-Based Gene Transfer Vectors
7 L6 E' p+ A s# r( F* v2 G3. Unit 26.2 BK Virus (BKV): Infection, Propagation, Quantitation, Purification, Labeling, and Analysis of
[6 E1 @: t, LCell Entry1 F2 a5 }( i4 x9 ~, V4 L
4. Unit 26.3 Methods Used to Study Respiratory Virus Infection
. N+ X9 N4 E m/ Q5. Unit 26.4 Compartmented Neuron Cultures for Directional Infection by Alpha Herpesviruses9 r' k; @6 m9 J9 D% ?+ ~
6. Unit 26.5 HIV-1 Interactions with Cells: From Viral Binding to Cell-Cell Transmission' _. B7 o) X9 j. U% c& p
29. Chapter 26 Lipids; v% `) V" S# o% v
1. Unit 26.6 Methods for Monitoring Dynamics of Pulmonary RSV Replication by Viral Culture and by
3 S5 G3 L, y! W \% t# {* e) b. `Real-Time Reverse Transcription.PCR In Vivo: Detection of Abortive Viral Replication
( b6 M% o( Q3 O30. Chapter 27 RNA-Based Methods in Cell Biology% M m2 i% {' V2 Z* F: C
1. Introduction
, l! n: c& R, a5 K& ^! q. H1 B2. Unit 27.1 Silencing of Gene Expression in Cultured Cells Using Small Interfering RNAs/ v* ~: W! N% t: g/ B9 Q7 h
3. Unit 27.2 Gene Down-Regulation with Short Hairpin RNAs and Validation of Specificity by Inducible- P% }2 d2 `! r" `: H# S( o
Rescue in Mammalian Cells+ x2 b( M8 Z8 e- B- x
31. Appendix 1 Useful Information and Data S9 L) b& N- M4 A7 i# \- @- J& T
1. 1A Useful Measurements and Data5 d b2 c% t! h
2. 1B Compendium of Drugs Commonly Used in Cell Biology Research! P) L" C+ F7 }) s+ _
3. 1C Identification of Motifs in Protein Sequences
& i6 ^" a" }* e& a* T% {4. 1D Safe Use of Radioisotopes" ` s, E4 ~% q. c& N% l$ m
5. 1E Absorption and Emission Maxima for Common Fluorophores2 c" e& B0 s7 L3 J9 N
6. 1F Importing Biological Materials
9 F* Z% K; f# F3 y( q5 E) ~0 t9 P7. 1G Centrifuges and Rotors; V1 h, t- b9 O3 n1 a, k
8. 1H Internet Basics for Biologists' e ?' X$ u# b) O! |- Q
32. Appendix 2 Laboratory Stock Solutions and Equipment3 [* z# I) |5 N
1. 2A Common Stock Solutions, Buffers, and Media
, t E' U9 l7 q3 o6 I9 p2. 2B Medium Formulations
) C. f3 h6 q4 D3. 2C Standard Laboratory Equipment
, a& Z' D; i7 w2 {3 E0 N33. Appendix 3 Commonly Used Techniques
3 g, M0 G9 O0 V- o5 ~( y6 K1. 3A Molecular Biology Techniques9 K( W0 j9 }' B( n0 D
2. 3B Spectrophotometric Determination of Protein Concentration- d, U6 P5 g3 p6 \
3. 3C Dialysis and Concentration of Protein Solutions* h7 N# [0 V/ u4 {9 y$ I- K
4. 3D Quantification of DNA and RNA with Absorption and Fluorescence Spectroscopy; |8 \: J% d5 f4 W) [ h/ \
5. 3E Silanizing Glassware
1 p V' N; G4 Z4 f6. 3F Enzymatic Amplification of DNA by PCR: Standard Procedures and Optimization# `( P& |5 ]4 C: E; P+ m
7. 3G Micro RT-PCR
& F) A4 c7 I4 A, j8. 3H The Colorimetric Detection and Quantitation of Total Protein
" b& i" v) v6 X0 f4 R# Z34. Appendix Suppliers% C. I! h% @* h. \
1. Selected Suppliers of Reagents and Equipment
# Q( ^& C4 ]1 J' T/ { ~. I4 O& m. E" B9 |* U! l# o" X+ o/ N
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发表于 2011-3-8 15:53
