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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
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Online ISBN: 9780471143031
0 ?, A8 F! i4 x6 v$ t% ZDOI: 10.1002/0471143030 J8 I c& y) {7 n* q( T5 J
9 I) `# W3 f5 k& S& f2 P. v
Table of Contents
0 @+ b( H- G6 E; \& |8 t1. Preface
( [% H! i( Z" N* i2. Foreword/ a1 g, ?) _9 b
3. Chapter 1 Cell Culture" P7 Z0 r1 U: @# Q j+ O$ _
1. Introduction ^/ T- h4 i( D# j5 O* b
2. Unit 1.1 Basic Techniques in Mammalian Cell Tissue Culture# G. }( Z" w" R( |
3. Unit 1.2 Media for Culture of Mammalian Cells
: f3 o. Q- z2 `4. Unit 1.3 Aseptic Technique for Cell Culture3 T* H* ]7 a) M+ U6 w
5. Unit 1.4 Sterilization and Filtration% M* J6 s0 N* l* o- D
6. Unit 1.5 Assessing and Controlling Microbial Contamination in Cell Cultures
# Z @' x) L; K4 t6 G0 U. |& L7. Unit 1.6 Media and Culture of Yeast
$ F& o a: l- _$ o) W' { \" N: ~8. Unit 1.7 BY-2 Cells: Culture and Transformation for Live Cell Imaging
. Z v5 n& v) y# V4. Chapter 2 Preparation and Isolation of Cells! x: c$ e$ r9 ]! H5 P
1. Introduction
* u: ~! J' _8 U8 J2. Unit 2.1 Establishment of Fibroblast Cultures: z7 Y1 i+ B9 i0 a3 @
3. Unit 2.2 Preparation and Culture of Human Lymphocytes
& ?6 W. ]/ n& b' y4. Unit 2.3 Preparation of Endothelial Cells
. c7 e1 S/ z& E- c5. Unit 2.4 Generation of Continuously Growing B Cell Lines by Epstein-Barr Virus Transformation! S) u. y' Q( S% W
6. Unit 2.5 Laser Capture Microdissection
N. d: x/ Z- z1 G- J& E7. Unit 2.6 Preparation of Human Epidermal Keratinocyte Cultures$ n6 ]" q' `# C0 B6 k: o' ^2 {- @
8. Unit 2.7 Preparation and Coculture of Neurons and Glial Cells9 p% n& K- C& z9 W4 {
5. Chapter 3 Subcellular Fractionation and Isolation of Organelles
4 G+ t' K3 l$ J1. Introduction
, I, z% m k7 E1 A& C2. Introduction
4 _; m: C& e) D. Y3 S7 F) {5 w l; [3. Unit 3.1 Overview of Cell Fractionation% Q" q& o$ \ `# r$ z6 z; s$ ~! J
4. Unit 3.2 Isolation of Rat Hepatocyte Plasma Membrane Sheets and Plasma Membrane Domains
0 H ]$ I3 ~7 T- ^, Y. u) y5. Unit 3.3 Isolation of Mitochondria from Tissues and Cells by Differential Centrifugation
$ `8 f b# e0 O; P) L$ `% |" a, k6. Unit 3.4 Purification of a Crude Mitochondrial Fraction by Density-Gradient Centrifugation
4 w* s$ \; [! L7 E7. Unit 3.5 Isolation of Peroxisomes from Tissues and Cells by Differential and Density Gradient K8 l; }& l7 k9 H% y
Centrifugation( g3 k2 @9 g9 I3 _" q3 n6 c
8. Unit 3.6 Isolation of Lysosomes from Tissues and Cells by Differential and Density Gradient
; C7 |! t \: h1 D2 Q% i8 u. ECentrifugation" E% w& V9 u& g
9. Unit 3.7 Overview of Subcellular Fractionation Procedures for the Yeast Saccharomyces cerevisiae
' Z4 C# r! O# ~' R# X10. Unit 3.8 Isolation of Subcellular Fractions from the Yeast Saccharomyces cerevisiae: q' _' u% Z4 c0 k4 d
11. Unit 3.9 Isolation of Golgi Membranes from Tissues and Cells by Differential and Density Gradient
/ o; T9 g; Y- u4 C1 X6 HCentrifugation
: T* _, {. z( q g# v12. Unit 3.10 Isolation of Nuclei and Nuclear Membranes From Animal Tissues3 H `0 L4 u8 Y# s" |0 |. o1 ~. D y
13. Unit 3.11 Free-Flow Electrophoretic Analysis of Endosome Subpopulations of Rat Hepatocytes3 \5 k. d( `, s' k' D) k, @
14. Unit 3.12 Isolation of Synaptic Vesicles
+ d7 B) O" ^. {15. Unit 3.13 Isolation of Clathrin-Coated Vesicles by Differential and Density Gradient Centrifugation
$ ~4 X* m3 H2 u# z; ]. Y16. Unit 3.14 Isolation of Melanosomes( r& j* a& [2 t+ e. _2 h
17. Unit 3.15 Isolation of Lipid Droplets from Cells by Density Gradient Centrifugation' I9 W. a# P. P: l
18. Unit 3.16 Isolation of Mast Cell Granules
5 t$ V$ L& M/ P& {# s0 n19. Unit 3.17 Immunoisolation of Centrosomes from Drosophila melanogaster
* J, O4 b- [4 e1 d$ C20. Unit 3.18 Isolation of Zymogen Granules from Rat Pancreas
; p6 E" w1 }# c+ [21. Unit 3.19 Isolation of Glyoxysomes from Pumpkin Cotyledons) s% \; g8 ]+ i. X0 U6 K$ a
22. Unit 3.20 Isolation of GLUT4 Storage Vesicles
/ f$ Y/ p2 _/ _6 x0 T23. Unit 3.21 Isolation of Intestinal Brush-Border Membranes
! O$ m3 s& Y* y3 u' Q) q24. Unit 3.22 Isolation and Characterization of Exosomes from Cell Culture Supernatants and Biological
! ~" f! y# ~; w8 a) W6 aFluids7 ^ r1 O; Y& A f9 E, b# o3 C
25. Unit 3.23 Isolation of Intermediate Filaments' }: f! k8 `5 M7 S# g7 g1 {! |
26. Unit 3.24 Isolation of T-Tubules from Skeletal Muscle
( ^7 `+ ^6 t( j27. Unit 3.25 Isolation of Myelin
4 m! j. \, o6 O, F; m* k4 U28. Unit 3.26 Isolation of Renal Brush Borders
/ h) \/ g q% [/ }: q29. Unit 3.27 Isolation of Endoplasmic Reticulum, Mitochondria, and Mitochondria-Associated Membrane2 C. e( J) n$ M; @8 B! a
Fractions from Transfected Cells and from Human Cytomegalovirus-Infected Primary Fibroblasts
7 `: b7 z. h& l. m) N30. Unit 3.28 Isolation of Amyloplasts2 n% w. w4 N% V, P8 L8 H" z; k
31. Unit 3.29 Isolation of Microtubules and Microtubule Proteins
: N/ C* K! Y9 z3 J2 e* o32. Unit 3.30 Purification of Intact Chloroplasts from Arabidopsis and Spinach Leaves by Isopycnic
E2 @1 d& ^ R+ Z3 Q6 `Centrifugation# L8 y) G4 b: a" F9 ~
33. Unit 3.31 Isolation of Neuromelanin Granules1 M0 k; }8 I: w% E/ S' N
34. Unit 3.32 Isolation of Dense Core Secretory Vesicles from Pancreatic Endocrine Cells by Differential and
1 X g6 {! q8 ]+ @ `Density Gradient Centrifugation
3 M& ?4 w! F* n4 K35. Unit 3.33 Isolation and Biochemical Characterization of Amyloid Plaques and Paired Helical Filaments% W1 v/ K6 J4 F
36. Unit 3.34 Isolation of Legionella-Containing Vacuoles by Immuno-Magnetic Separation
* A2 c3 i, U" \ j" {37. Unit 3.35 Isolation of Platelet Granules
# L; j3 j3 Z6 v2 I, J38. Unit 3.36 Isolation of Nucleoli
. X+ V( G3 w9 a# W p39. Unit 3.37 Isolation of Cytotoxic T Cell and NK Granules and Purification of Their Effector Proteins2 x" \& _2 [; R; J7 @7 {
40. Unit 3.38 Isolation of Aggresomes and Other Large Aggregates
: w/ {* Z# l3 I7 n" {3 ~41. Unit 3.39 Isolation of Chromaffin Granules5 z+ X) d+ Z$ w6 W, ?+ w
42. Unit 3.40 Purification of Ribosomes from Human Cell Lines
0 H. I. {( o8 R" k6. Chapter 4 Microscopy
2 ?. o' n8 G% m K3 w) p1. Introduction5 C- O9 J( |* y2 j6 \# {/ c. R
2. Unit 4.1 Proper Alignment and Adjustment of the Light Microscope
( j( w, n1 O- h9 Z' z, M9 r3 V# J& M3. Unit 4.2 Fluorescence Microscopy
% a) c- T( S- z5 E' [4. Unit 4.3 Immunofluorescence Staining
' d- W& j+ V! J8 `& B5. Unit 4.4 Fluorescent Staining of Subcellular Organelles: ER, Golgi Complex, and Mitochondria
: M* N/ J. `! V: n: B8 {, N6. Unit 4.5 Basic Confocal Microscopy
4 a2 Q" H% l' w3 K6 g& B: I7. Unit 4.6 Immunoperoxidase Methods for Localization of Antigens in Cultured Cells and Tissues
% b. }3 Z4 r! O7 }5 `8. Unit 4.7 Cryo-Immunogold Electron Microscopy) X$ l' z6 G) W! p: }
9. Unit 4.8 Correlative Video Light/Electron Microscopy) v2 T1 I" w* g, ~" v
10. Unit 4.9 Polarization Microscopy8 P" M x* e7 Q1 j8 I( b% Z
11. Unit 4.10 Fluorescent Speckle Microscopy (FSM) of Microtubules and Actin in Living Cells
5 m7 X* w% y* u7 w1 M" }% M12. Unit 4.11 Two-Photon Excitation Microscopy for the Study of Living Cells and Tissues3 f/ i& A" A+ g* o" g
13. Unit 4.12 Total Internal Reflection Fluorescence Microscopy for High-Resolution Imaging of Cell-Surface7 G/ W$ n- O, d. T$ K7 N
Events" V& d0 h; M0 g- E) a1 ]
14. Unit 4.13 Fluorescent Labeling of Yeast
7 G3 z4 a" j2 j! |' S15. Unit 4.14 Fluorescence Lifetime Imaging Microscopy
0 i7 U. ~6 n, ~16. Unit 4.15 Biological Second and Third Harmonic Generation Microscopy
) s0 }. |& p8 P- S) A5 J0 P. ?17. Unit 4.16 Analyzing Real-Time Video Microscopy: The Dynamics and Geometry of Vesicles and Tubules
! h( o6 Q2 X0 u- iin Endocytosis/ |& N3 M/ U7 X& U b& S1 f
18. Unit 4.17 Scanning Electron Microscopy of Cell Surface Morphology. z* a" b- J# q: S" \& \& ]
19. Unit 4.18 Fluorescence Imaging Techniques for Studying Drosophila Embryo Development8 s' ?9 I# n& g {
20. Unit 4.19 Quantitative Colocalization Analysis of Confocal Fluorescence Microscopy Images) L y) d! V. G% W! m
21. Unit 4.20 Visualizing Protease Activity in Living Cells: From Two Dimensions to Four Dimensions
- x; ^* H) c, u7 N0 U22. Unit 4.21 Photoactivated Localization Microscopy (PALM) of Adhesion Complexes
! _' {4 N3 {1 W. b. Y23. Unit 4.22 Culturing MDCK Cells in Three Dimensions for Analyzing Intracellular Dynamics
: w: X1 A1 F% e4 F! p! K9 c0 E/ c24. Unit 4.23 Interference Reflection Microscopy
3 v2 G B7 H1 _' s2 W- c* v2 C25. Unit 4.24 Fluorescence Correlation Spectroscopy in Living Cells: A Practical Approach
. B( f. X/ R( E0 s2 r: t- Y26. Unit 4.25 Analysis of Mitochondrial Dynamics and Functions Using Imaging Approaches4 ], h9 `$ J1 o1 h( }( C6 N
27. Unit 4A Organelle Atlas: Appendix to Chapter 4
& O7 E4 z' w H; U- q7. Chapter 5 Characterization of Cellular Proteins
' K& p' E l" a* _' f1. Introduction7 G5 J# D3 f r) E0 \9 p+ r2 P
2. Unit 5.1 Overview of the Physical State of Proteins Within Cells$ j8 E0 @# g3 p' H
3. Unit 5.2 Determining the Topology of an Integral Membrane Protein
$ w8 d9 R" ?- E% ?$ @7 J4. Unit 5.3 Determination of Molecular Size by Zonal Sedimentation Analysis on Sucrose Density Gradients
' ~9 M. a9 ]) j9 u" Y2 e! r, |. B' d. r5. Unit 5.4 Analysis of the Association of Proteins with Membranes. A( [ L/ u( {/ L1 E! s) V
6. Unit 5.5 Determination of Molecular Size by Size-Exclusion Chromatography (Gel Filtration)
! `* u/ x8 B2 a7. Unit 5.6 Identification of Proteins in Complex Mixtures Using Liquid Chromatography and Mass
' L" H" i& z! W$ USpectrometry5 F$ X v$ ^2 F* g
8. Unit 5.7 Determining Membrane Protein Topologies in Single Cells and High-Throughput Screening; d* i3 x; d$ Z) T, y
Applications
9 U' z$ S0 B; q5 V8. Chapter 6 Electrophoresis and Immunoblotting, F' ?+ m9 G5 ]+ k! R: R
1. Introduction5 Z, D0 I% @, A+ @' K
2. Unit 6.1 One-Dimensional SDS Gel Electrophoresis of Proteins
+ y$ E2 Z2 ]" g0 I; c3. Unit 6.2 Immunoblotting and Immunodetection
0 S0 `3 r! A+ [' @# e4. Unit 6.3 Detection and Quantitation of Radiolabeled Proteins in Gels and Blots
+ H/ ^& ?7 Y3 g4 l6 N5. Unit 6.4 Two-Dimensional Gel Electrophoresis
: W1 {% F" h* }. d* I6. Unit 6.5 One-Dimensional Electrophoresis Using Nondenaturing Conditions Y- h* {7 p+ i
7. Unit 6.6 Staining Proteins in Gels
7 @8 I5 k v) l8. Unit 6.7 Agarose Gel Electrophoresis of Proteins1 J$ S& C6 { r2 l0 y% h
9. Unit 6.8 Fluorescence Detection of Glycoproteins in Gels and on Electroblots' h: Z( L. E4 b0 z! `# A7 ?& w7 v" z
10. Unit 6.9 Digital Electrophoresis Analysis$ ~4 T7 t- O9 Z, v3 t* ^; i1 R" i+ {
11. Unit 6.10 Two-Dimensional Blue Native Polyacrylamide Gel Electrophoresis: B$ j$ c/ E' ]6 k3 v: W
12. Unit 6.11 Measurement of Oxidatively-Induced Clustered DNA Lesions Using a Novel Adaptation of' U- l% A4 i3 o7 V) S
Single Cell Gel Electrophoresis (Comet Assay)
+ ?4 z- W8 ]0 H: H2 h' g9. Chapter 7 Protein Labeling and Immunoprecipitation
: ~' r! r: z4 {0 W* Z$ _1. Introduction( ^- ]2 x! S) F' N9 G3 f& l
2. Unit 7.1 Metabolic Labeling with Amino Acids6 ]) d. N/ z! x
3. Unit 7.2 Immunoprecipitation
C. D( ^3 j2 }0 ~- g4. Unit 7.3 Metabolic Labeling with Sulfate
* F: W/ Q5 g/ Y. n l( z5 ]$ @5. Unit 7.4 Metabolic Labeling with Fatty Acids
# R h' S$ X2 b6 b8 K) V6. Unit 7.5 Metabolic Labeling of Prenyl and Carboxyl-Methyl Groups
4 L' S7 r1 w; N4 X; f7 @7. Unit 7.6 Metabolic Labeling and Immunoprecipitation of Yeast Proteins; O2 [9 i* \5 ~
8. Unit 7.7 Metabolic Labeling and Immunoprecipitation of Drosophila Proteins
7 U3 j7 a& [6 ~- H5 |4 f9. Unit 7.8 Metabolic Labeling of Glycoproteins with Radioactive Sugars
" v: e1 W5 D- O: u7 m+ M' m; w' }$ t10. Unit 7.9 Analysis of Oxidative Modification of Proteins
% i, n1 h- t4 \+ X6 \11. Unit 7.10 Radioiodination of Cellular Proteins0 H# l: S/ k, F+ b
10. Chapter 8 Cell Cycle Analysis
- G6 p! Q+ F+ Z6 l0 F! W; c1. Introduction
; d* d5 ~ R5 Z, E% x; K2. Unit 8.1 Overview of the Cell Cycle& [! q* y# {6 v8 Z1 [2 }
3. Unit 8.2 Assays for CDK Activity and DNA Replication in the Cell Cycle
) |7 Y3 S$ g" v4. Unit 8.3 Methods for Synchronizing Cells at Specific Stages of the Cell Cycle
- w# q& p0 m! f ?: n; w5. Unit 8.4 Determining Cell Cycle Stages by Flow Cytometry
8 L( c) t# J, Q" _3 W. r6. Unit 8.5 Centrifugal Elutriation to Obtain Synchronous Populations of Cells
Y# C2 A8 n% O9 D, B& ]! T& Y7. Unit 8.6 Dynamic Proliferation Assessment in Flow Cytometry1 Y' ^7 r* m, ^2 A- l: y
11. Chapter 9 Cell Adhesion: ]0 l3 }' C: U; S
1. Introduction
% g% m0 i [4 F2. Unit 9.1 Cell-Substrate Adhesion Assays
; B8 g" u# W; V6 @ ]% z3. Unit 9.2 Quantitative Measurement of Cell Adhesion Using Centrifugal Force
7 V4 h& Z7 S, X% ^4. Unit 9.3 Cadherin-Dependent Cell-Cell Adhesion
2 U* d3 A4 D" f/ U& ~2 |5. Unit 9.4 Analyzing Integrin-Dependent Adhesion
; J% f( }% O# s8 H4 B7 a6. Unit 9.5 Analysis of Cell-Cell Contact Mediated by Ig Superfamily Cell Adhesion Molecules
8 F2 C2 `' B* \9 Y& N! ^7. Unit 9.6 Measurement of Adhesion Under Flow Conditions, M) ?6 i) g; [
12. Chapter 10 Extracellular Matrix: [/ Q) N6 q( M( r! H* S5 Q
1. Introduction' R) |1 C. [" Z x' _6 Z
2. Unit 10.1 Overview of Extracellular Matrix6 F$ t. ^0 L7 F8 f+ z
3. Unit 10.2 Preparation of Basement Membrane Components from EHS Tumors- M! H: B! f6 Q! f7 U
4. Unit 10.3 Preparation of Gelled Substrates
4 U% v& U: F% i5 t* P5. Unit 10.4 Preparation of Extracellular Matrices Produced by Cultured Corneal Endothelial and PF-HR9
* N, S# D! d4 H3 q% WEndodermal Cells
- Y& t& o1 U/ Z7 F; u6. Unit 10.5 Purification of Fibronectin
* q+ {% f/ L/ r, K7. Unit 10.6 Purification of Vitronectin/ x( I n3 X6 f, \ r, p4 n, N
8. Unit 10.7 Proteoglycan Isolation and Analysis
& H7 f" f; @( m5 } e1 _9. Unit 10.8 Matrix Metalloproteinases) s/ h" s( S% N8 v
10. Unit 10.9 Preparation of Extracellular Matrices Produced by Cultured and Primary Fibroblasts9 v, g& q. G; @% b* ?% Y$ `
11. Unit 10.10 Purification and Analysis of Thrombospondin-14 p5 n/ v1 |. y/ C% C
12. Unit 10.11 Purification of SPARC/Osteonectin) E9 [* W% O4 s# j6 Y
13. Unit 10.12 Analysis of Fibronectin Matrix Assembly
) u8 X2 D9 x( o" ]" M" X& P14. Unit 10.13 Non-Radioactive Quantification of Fibronectin Matrix Assembly
) ?+ I. r! B( R) @15. Unit 10.14 Use of Hyaluronan-Derived Hydrogels for Three-Dimensional Cell Culture and Tumor
7 A t9 V! ~) D$ t" D: V! S IXenografts
+ q$ \1 D/ D# l4 ]16. Unit 10.15 Generation of Micropatterned Substrates Using Micro Photopatterning- w/ w2 G8 E4 Q9 p8 F- V
17. Unit 10.16 Preparation of Hydrogel Substrates with Tunable Mechanical Properties
: g$ s, I* U6 B, i18. Unit 10.17 Engineering Three-Dimensional Collagen Matrices to Provide Contact Guidance during 3D
" b+ A' X% g yCell Migration% k' |) g, e) ]* k
19. Unit 10.18 Imaging Cells in Three-Dimensional Collagen Matrix( a5 N4 V d' m# W. n8 M
13. Chapter 11 In Vitro Reconstitution0 N$ \, A5 N( L/ p
1. Introduction% E) a6 Z/ C) t/ A: c! r
2. Unit 11.1 Overview of Eukaryotic In Vitro Translation and Expression Systems. e6 s' \& P$ N; ?& \$ k, s
3. Unit 11.2 In Vitro Translation4 ~" z" h, O* z4 j5 H- P
4. Unit 11.3 In Vitro Analysis of Endoplasmic-Reticulum-to-Golgi Transport in Mammalian Cells
8 a* Z( H; C2 u1 k& H5. Unit 11.4 Cotranslational Translocation of Proteins into Canine Rough Microsomes
. A3 P+ R& e7 i- X; ^6. Unit 11.5 In Vitro Analysis of SV40 DNA Replication
7 Q3 d6 \5 M9 s9 R$ q5 e% g3 W7. Unit 11.6 In Vitro Transcription
" \- D) F% h" } W8. Unit 11.7 Nuclear Import in Digitonin-Permeabilized Cells5 K6 _8 T2 ^+ _, V3 W
9. Unit 11.8 In Vitro Translation Using HeLa Extract
" ? |& ~+ Y! A# Z! n7 Z# P10. Unit 11.9 Analysis of Eukaryotic Translation in Purified and Semipurified Systems
- U! i1 O4 D0 h7 t$ [/ T11. Unit 11.10 Preparation and Use of Interphase Xenopus Egg Extracts
% e* q+ u7 X4 ?4 J12. Unit 11.11 Analysis of the Cell Cycle Using Xenopus Egg Extracts& {/ V5 W) a% I$ I! _, J) Y# \
13. Unit 11.12 Analysis of Apoptosis Using Xenopus Egg Extracts
4 b5 N, z' ` [14. Unit 11.13 Mitotic Spindle Assembly In Vitro
5 o+ Q% A( x% H$ z; z8 }+ w9 A0 `15. Unit 11.14 Analysis of RNA Export Using Xenopus Oocytes
9 e8 ^8 ~! F3 i B16. Unit 11.15 In Vitro Analysis of Peroxisomal Protein Import2 a2 P' [, f" P) G1 J
17. Unit 11.16 In Vitro Analysis of Chloroplast Protein Import
: I: m) n3 n5 F* X, a18. Unit 11.17 In Vitro RNA Splicing in Mammalian Cell Extracts
! ]; z: P) D: V19. Unit 11.18 Endocytosis Assays in Intact and Permeabilized Cells
+ ^7 D* o9 O9 [" f! B20. Unit 11.19 In Vitro Analysis of Yeast Mitochondrial Protein Import, A: ? v" ]8 A
14. Chapter 12 Cell Motility
( c( r' |5 Q! {1. Introduction
# P, `. L2 e8 U+ c6 {2. Unit 12.1 Chemotaxis Assays for Eukaryotic Cells& _5 C3 s; u$ ]7 a7 X" F4 M
3. Unit 12.2 Invasion Assays
: R) [' ?7 J1 ]- @% k8 N8 h1 d4. Unit 12.3 Cell Traction2 t4 c4 H/ \# F
5. Unit 12.4 Cell Wound Assays
$ J7 b: G6 v3 ^8 {: }( ~& F3 F# [6. Unit 12.5 Dictyostelium Cell Dynamics# Y8 I. k$ V' v
7. Unit 12.6 Optical Microscopy.Based Migration Assay for Human Neutrophils8 |( ? r i# ^
8. Unit 12.7 Actin-Based Motility Assay
7 G* E5 f0 p6 t* {: d9. Unit 12.8 In Vivo Marking of Single Cells in Chick Embryos Using Photoactivation of GFP
1 Q" _$ m! w, I* w0 p2 r0 B& c) @15. Chapter 13 Organelle Motility
+ J5 v J/ M# u9 Q% k. _: F' l* ?- V) ^1. Introduction
: M5 F1 s" t1 ~; H, c; o$ G) U2. Unit 13.1 Microtubule/Organelle Motility Assays
8 j% J# U. X8 z9 k( _4 u7 G3. Unit 13.2 In Vitro Motility Assay to Study Translocation of Actin by Myosin
" u2 b( ~; d$ W. S ` C4. Unit 13.3 Organelle Motility in Plant Cells: Imaging Golgi and ER Dynamics with GFP* X, i0 u/ j2 Q m# ~1 Q
5. Unit 13.4 Movement of Nuclei- u( [5 j D. }9 \0 t) Z& r: s
6. Unit 13.5 Measuring Dynamics of Nuclear Proteins by Photobleaching# k0 F- \' l9 @) `
7. Unit 13.6 Functional Characterization of Proteins Regulating Actin Assembly
4 ?; I1 o! K' `" c ~16. Chapter 14 Signal Transduction: Protein Phosphorylation
& u4 {1 s2 @- C, d# s7 n) ]1. Introduction
6 C/ i; ^% v3 {. L2. Unit 14.1 Overview of Protein Phosphorylation0 s4 h6 y. w; U5 r4 n" o
3. Unit 14.2 Immunological Detection of Phosphorylation
* m) T0 R$ u6 R7 h) f4. Unit 14.3 The Detection of MAPK Signaling) l2 @) P1 l* P; c
5. Unit 14.4 Labeling Cultured Cells with 32Pi and Preparing Cell Lysates for Immunoprecipitation
% f" o' n* [5 B- s6. Unit 14.5 Phosphoamino Acid Analysis+ d4 v n3 ^2 K3 j7 P+ u, Z t+ N
7. Unit 14.6 Determination of Akt/PKB Signaling* a* H7 Q ]( W6 s
8. Unit 14.7 Analyzing FAK and Pyk2 in Early Integrin Signaling Events9 p( v! Q, `% r# @' [9 U
9. Unit 14.8 Rho GTPase Activation Assays+ j! H. q9 ^' j8 F
10. Unit 14.9 In Vitro GEF and GAP Assays
% k# H4 q$ f1 E11. Unit 14.10 In Vivo Imaging of Signal Transduction Cascades with Probes Based on Forster Resonance
2 h3 b/ X7 M5 v! ]% H/ yEnergy Transfer (FRET)
0 S" Q4 M. S- F/ i) l0 p, Z. Q. }7 c! @12. Unit 14.11 Biosensors for Characterizing the Dynamics of Rho Family GTPases in Living Cells+ g+ g) J. i" T7 @0 ]
13. Unit 14.12 Analysis of Arf GTP-Binding Protein Function in Cells* c$ {; @- h: Y$ e, \" p
17. Chapter 15 Protein Trafficking( H! f) P% @: J
1. Introduction
' X% u; q) ]* k# g2. Unit 15.1 Overview of Protein Trafficking in the Secretory and Endocytic Pathways: E Z o/ l1 W' i8 a: Z
3. Unit 15.2 Use of Glycosidases to Study Protein Trafficking9 a! O C. X( L; M
4. Unit 15.3 Endocytosis: Biochemical Analyses
+ A6 x- n. u8 \& i8 g+ o/ G( Q: ^2 q, I5. Unit 15.4 Determining Protein Transport to the Plasma Membrane4 y2 J. z2 n1 a- a5 j
6. Unit 15.5 Analysis of Membrane Traffic in Polarized Epithelial Cells8 R# p+ i) ]9 g3 f0 K
7. Unit 15.6 Analysis of Protein Folding and Oxidation in the Endoplasmic Reticulum
) W5 J# m0 P( o0 N2 z7 N8 l8. Unit 15.7 Measurements of Phagocytosis and Phagosomal Maturation$ I& N8 J Y. `1 `- I
9. Unit 15.8 Analysis of Protein Transport to Lysosomes
$ x4 y7 B! }$ [10. Unit 15.9 Studies of the Ubiquitin Proteasome System. p0 X, d" d7 ?) Z1 [1 m3 t
11. Unit 15.10 Measuring Retrograde Transport to the Trans-Golgi Network
5 ^+ L$ a' }; a% _ k0 n6 R12. Unit 15.11 Assays for Regulated Exocytosis of Mast Cell Granules8 f/ H$ D; h4 \- }! E
13. Unit 15.12 Analysis of Regulated Secretion Using PC12 Cells% ^) e; P) |9 N
14. Unit 15.13 Analysis of Endocytic Trafficking by Single-Cell Fluorescence Ratio Imaging
) z9 ~: Z% \7 D" ?. `15. Unit 15.14 Quantitative Analysis of Endocytosis and Turnover of Epidermal Growth Factor (EGF) and- d3 V: E# g4 C4 b0 J% Q5 A, |
EGF Receptor/ S- O! f* ^2 h7 Q8 y$ ^; @
16. Unit 15.15 Documenting GLUT4 Exocytosis and Endocytosis in Muscle Cell Monolayers; s- C4 N, s7 `9 m; ]. {- _7 }* P! {% ]
18. Chapter 16 Antibodies as Cell Biological Tools( ?& ]: ^+ G+ n# { C9 ~. E
1. Introduction
- N3 D0 s) L# c2. Unit 16.1 Production of Monoclonal Antibodies; _# Y: R; s0 k7 O+ w5 U
3. Unit 16.2 Production of Polyclonal Antisera
- }; V- @0 F4 ^( v& q4. Unit 16.3 Purification of Immunoglobulin G6 H0 z! U9 P, h: \7 S
5. Unit 16.4 Fragmentation of Immunoglobulin G
% a7 E- A: F5 R' _3 p" y6. Unit 16.5 Antibody Conjugates for Cell Biology
+ |, e; F# Z7 O0 F Y2 c, }7. Unit 16.6 Production of Antibodies That Recognize Specific Tyrosine-Phosphorylated Peptides3 A# I7 R$ Y6 Y F% K
19. Chapter 17 Macromolecular Interactions in Cells+ g! x& R5 T+ K2 L8 k& K% I
1. Introduction4 l% p! Y2 h1 j* M! V4 S
2. Unit 17.1 Imaging Protein-Protein Interactions by Fluorescence Resonance Energy Transfer (FRET)
6 L& C' r, [4 m6 B) HMicroscopy! C: k( s8 X4 |9 T0 b, z
3. Unit 17.2 Identification of Protein Interactions by Far Western Analysis$ o) h W- S+ o
4. Unit 17.3 Interaction Trap/Two-Hybrid System to Identify Interacting Proteins
; }' k) ?% ^! i7 y1 p$ j! @5. Unit 17.4 Mapping Protein-Protein Interactions with Phage-Displayed Combinatorial Peptide Libraries, w8 t; D5 h; c& I' N5 v: B: n4 Q
6. Unit 17.5 Protein-Protein Interactions Identified by Pull-Down Experiments and Mass Spectrometry( B) D+ o( N% i$ N) Q9 c& X
7. Unit 17.6 Measuring Protein Interactions by Optical Biosensors3 X/ T5 m3 V6 U% D$ D, ?( {
8. Unit 17.7 Chromatin Immunoprecipitation for Determining the Association of Proteins with Specific
7 M- B: \4 p! p# U3 ?: Q, x g1 ]Genomic Sequences In Vivo
* R2 ~' l0 V( ?5 m9. Unit 17.8 Isothermal Titration Calorimetry
) _: A$ B' b9 b! Z. `( d10. Unit 17.9 Rational Design and Evaluation of FRET Experiments to Measure Protein Proximities in Cells
0 N+ |5 Z2 t; V2 W& N( u% i8 X9 j11. Unit 17.10 Identification and Analysis of Multiprotein Complexes Through Chemical Crosslinking% _5 U- B# J5 B8 m
12. Unit 17.11 Visualization of RNA Using Fluorescence Complementation Triggered by Aptamer-Protein
. }" a& N+ C+ X& X0 Z2 O, O+ `0 a' f6 ?Interactions (RFAP) in Live Bacterial Cells% w. c- z1 b, B& U$ [4 l
20. Chapter 18 Cellular Aging and Death6 C# @4 r& W, C9 ]1 d
1. Introduction
1 D3 o. g( g$ E a! z$ @2. Unit 18.1 Current Concepts in Cell Death: r' J3 y! c8 C3 S
3. Unit 18.2 Analysis of Caspase Activation During Apoptosis
1 O# E' ~) m7 f/ Y: a4. Unit 18.3 Assessment of Apoptosis and Necrosis by DNA Fragmentation and Morphological Criteria
3 }$ {4 R' X# h2 H, ~' t' F5. Unit 18.4 Quantitative Fluorescence In Situ Hybridization (Q-FISH)
5 L, I& Y+ G$ }( Y" U6 z p6. Unit 18.5 Analysis of Mitochondrial Dysfunction During Cell Death
w/ L' v, T1 e7. Unit 18.6 Analysis of Telomeres and Telomerase
7 h% ?" C0 z, s/ c8. Unit 18.7 Nonisotopic Methods for Determination of Poly(ADP-Ribose) Levels and Detection of8 w; s0 J1 X+ E' n$ p! ^
Poly(ADP-Ribose) Polymerase
0 a3 T9 G- Q5 S8 [& m% [9. Unit 18.8 Flow Cytometry of Apoptosis( I% |; r) A, ^% `- i Q( X5 u
10. Unit 18.9 Analysis of Cellular Senescence in Culture In Vivo: The Senescence-Associated -Galactosidase% X5 m0 H* F; B5 f6 j
Assay' x7 b3 ]: d& S( a
11. Unit 18.10 High-Throughput Live Cell Imaging of Apoptosis
' u* w: _( W3 |; p l' l* x: s @21. Chapter 19 Whole Organism and Tissue Analysis0 Z5 e3 N4 u. }/ Q
1. Introduction' p& V+ M( j+ ^6 M+ a1 c
2. Unit 19.1 Overview of Metastasis Assays
( v7 S* i. N) Q0 L$ F3. Unit 19.2 Tail Vein Assay of Cancer Metastasis
: G9 W2 n8 l8 m* V9 B6 e" `" d4. Unit 19.3 Microanalysis of Gene Expression in Tissues Using T7-SAGE: Serial Analysis of Gene/ {: e( o4 s2 Q- ^
Expression After High-Fidelity T7-Based RNA Amplification7 v2 _9 c; z- M! D7 G
5. Unit 19.4 SAGE Analysis from 1 兪g of Total RNA
! r* [. f! t2 X) e X6. Unit 19.5 The Chick Chorioallantoic Membrane as an In Vivo Angiogenesis Model2 I3 [, M. D- r' w# w
7. Unit 19.6 Experimental Metastasis Assays in the Chick Embryo$ s' T4 S! q; O
8. Unit 19.7 Imaging Tumor Cell Movement In Vivo
8 B8 |: ~- l \5 @9. Unit 19.8 Embryonic Organ Culture% O8 B+ q2 r1 D! Y
10. Unit 19.9 Three-Dimensional Tissue Models of Normal and Diseased Skin
1 g! D$ K4 Y% g8 @( N4 R11. Unit 19.10 Overview: Engineering Transgenic Constructs and Mice
3 h! i' e. N% {( R$ T+ ?+ r12. Unit 19.11 Generation of Transgenic Mice! Z( \- g+ ]: w9 c) o
13. Unit 19.12 Overview: Generation of Gene Knockout Mice, _) o+ T0 n: `. H! M& }$ o
14. Unit 19.13 Manipulation of Mouse Embryonic Stem Cells for Knockout Mouse Production4 t ]% U( t- p$ X
15. Unit 19.14 Generation of Gene Knockout Mice by ES Cell Microinjection
! Q4 N1 N ~* ?! i& Y4 C22. Chapter 20 Expression and Introduction of Macromolecules into Cells# t# A( W/ Z2 p. F5 O
1. Introduction
" Y2 R: A* _& a2. Unit 20.1 Direct Introduction of Molecules into Cells
/ w9 c3 R7 c1 t2 d& ^4 ? i3. Unit 20.2 Protein Transduction: Generation of Full-Length Transducible Proteins Using the TAT System
2 I- M0 X1 {7 u& Z. R9 c" o4. Unit 20.3 Calcium Phosphate Transfection
4 z& Y- H1 S3 M9 H6 g- t5. Unit 20.4 Transfection Using DEAE-Dextran/ V0 t. j+ B, A, {2 q
6. Unit 20.5 Transfection by Electroporation
1 F H1 B F ^/ [7. Unit 20.6 Transfection of Cultured Eukaryotic Cells Using Cationic Lipid Reagents
6 g: S D" W7 J* c4 ?0 G7 ]8. Unit 20.7 Optimization of Transfection
, d2 T8 b) W# r0 F( {% u+ Q4 L. Y9. Unit 20.8 Inducible Gene Expression Using an Autoregulatory, Tetracycline-Controlled System
{, S% }1 A* C3 a4 W V" z23. Chapter 21 Fluorescent Protein Technology
+ v5 {7 R. M: M- d0 v" I4 v+ F4 \4 j8 k( g1. Introduction
/ E9 A, B6 v1 [% i2. Unit 21.1 Measuring Protein Mobility by Photobleaching GFP Chimeras in Living Cells W0 \" r: f. ^7 h
3. Unit 21.2 Fluorescence Localization After Photobleaching (FLAP)7 f3 K- o9 }- U9 Q* s, a& x
4. Unit 21.3 Visualization of Protein Interactions in Living Cells Using Bimolecular Fluorescence
' U( v7 ~$ W( O$ G) |1 I. V* qComplementation (BiFC) Analysis2 |1 e( ^1 j( o
5. Unit 21.4 Design and Use of Fluorescent Fusion Proteins in Cell Biology
5 r7 a# b) M9 k6. Unit 21.5 The Fluorescent Protein Color Palette
5 U8 Z! |# p. b/ V a- g7. Unit 21.6 Photoactivation and Imaging of Photoactivatable Fluorescent Proteins
/ x8 L) f0 v. x9 s1 i" l2 u24. Chapter 22 Cell Biology of Chromosomes and Nuclei, Q p- F1 J6 a( m N n( w+ I
1. Introduction8 S7 B7 ?6 h) B3 L) W; |5 q; h+ T" R
2. Unit 22.1 Overview of Cytogenetic Chromosome Analysis
$ b' w% [# G) h( c( c. S* S5 f3. Unit 22.2 Preparation of Cytogenetic Specimens from Tissue Samples
0 g; G( v) j) m4. Unit 22.3 Traditional Banding of Chromosomes for Cytogenetic Analysis4 Y+ V y' o; E9 @* i5 }6 ?
5. Unit 22.4 Fluorescence In Situ Hybridization (FISH)
$ Q& Q' q2 K8 B, H7 j+ f6. Unit 22.5 Multi-Color FISH Techniques
! x, @% ]. o' O7. Unit 22.6 Comparative Genomic Hybridization" L+ i+ F% f8 E
8. Unit 22.7 Sister Chromatid Exchange
, T4 K* q5 m2 X$ n7 D$ L1 y! w$ C9. Unit 22.8 Detection of Mitotic Figures and Components of the Mitotic Machinery, D, t* _" L' U. }9 [. C2 }1 G
10. Unit 22.9 Assembly and Micromanipulation of Xenopus In Vitro.Assembled Mitotic Chromosomes
% b4 ^! ^9 P( h, E# O/ o11. Unit 22.10 Replication Labeling with Halogenated Thymidine Analogs
1 _! I- k, n I9 e. F# }; y12. Unit 22.11 Assays for Ribosomal RNA Processing and Ribosome Assembly
* l" j. i& M+ H! Q- e1 a% P13. Unit 22.12 Visualization and Measurement of DNA Methyltransferase Activity in Living Cells" E+ u+ z" a' `" g
14. Unit 22.13 Monitoring mRNA Export
) R$ z# q2 o- J# \( S15. Unit 22.14 Analysis of DNA Replication in Saccharomyces cerevisiae by Two-Dimensional and Pulsed-
4 h3 ^' R9 v; L) T( ZField Gel Electrophoresis
/ T, a+ y1 S. B% X; B0 r25. Chapter 23 Stem Cells. R( [3 ~& k9 R/ E/ [, d
1. Introduction* ^. r$ K1 s* `
2. Unit 23.1 Stem Cells: An Overview
" N: ?: H% Y$ d5 K3 D6 `# U+ l, t3. Unit 23.2 Mouse Embryonic Stem Cell Derivation, and Mouse and Human Embryonic Stem Cell Culture( B* `9 T# ]6 O( \
and Differentiation as Embryoid Bodies
- y, z' A! ^: P( D4 B# Z7 S4. Unit 23.3 Maintenance and In Vitro Differentiation of Mouse Embryonic Stem Cells to Form Blood
4 E$ q0 D' R. N; c- ?* `! n; YVessels
; x& {2 A, k( ]8 i! z5. Unit 23.4 Differentiation of Mouse Embryonic Stem Cells and of Human Adult Stem Cells into
8 G$ B6 ~: j& ?Adipocytes
) W. r; l) g* C' `7 Q: }6. Unit 23.5 Induction of ES Cell.Derived Cartilage Formation
1 E3 N W5 @# M( [# D7. Unit 23.6 Hematoendothelial Differentiation of Human Embryonic Stem Cells& ~6 P: g' e9 i/ i5 r
8. Unit 23.7 Neural Differentiation of Human ES Cells
2 A0 `% A1 a+ Q5 E26. Chapter 24 Lipids; T9 r" ]; d" V4 D2 ^7 A
1. Introduction- |( @; y0 d0 h; \4 W
2. Unit 24.1 Using Fluorescent Sphingolipid Analogs to Study Intracellular Lipid Trafficking
% Q* ]! c, K4 y0 l4 Q3. Unit 24.2 Fluorescent Detection of Lipid Droplets and Associated Proteins3 ~/ D) _, S7 {2 F6 V3 P
4. Unit 24.3 Making Giant Unilamellar Vesicles via Hydration of a Lipid Film) p7 u$ L$ e; P7 m& ^# E
5. Unit 24.4 Visualization of Cellular Phosphoinositide Pools with GFP-Fused Protein-Domains7 Y5 n8 V, N. ^2 V0 Q) |
27. Chapter 25 Nanotechnology
: }1 v f+ j9 P- V! \1. Introduction
% s/ d n8 g$ h2. Unit 25.1 In Vivo Imaging Using Quantum Dot.Conjugated Probes
+ i: m u1 h# F7 Z# h z; A+ g! \' i0 K3. Unit 25.2 Fabrication and Application of Nanofibrous Scaffolds in Tissue Engineering
1 i+ y, K9 D6 D) P0 ]- ~28. Chapter 26 Viruses
?; k' Q' G& |/ G9 N- t, u1. Introduction
2 V+ w, v+ r% _2. Unit 26.1 Production of Papillomavirus-Based Gene Transfer Vectors' p; W/ J( i8 |6 Q5 i
3. Unit 26.2 BK Virus (BKV): Infection, Propagation, Quantitation, Purification, Labeling, and Analysis of" o) O4 f" @* C" @. S
Cell Entry6 j: z! N9 d; r0 F5 ]1 v
4. Unit 26.3 Methods Used to Study Respiratory Virus Infection. L& b6 H1 ]" r. P- \
5. Unit 26.4 Compartmented Neuron Cultures for Directional Infection by Alpha Herpesviruses
) r6 u) h6 f& J9 @6. Unit 26.5 HIV-1 Interactions with Cells: From Viral Binding to Cell-Cell Transmission8 d* g" F6 R* q) v7 |
29. Chapter 26 Lipids
7 ~* ?& j" E: f1. Unit 26.6 Methods for Monitoring Dynamics of Pulmonary RSV Replication by Viral Culture and by! C6 Y V# d9 w3 _( u; w1 B5 R
Real-Time Reverse Transcription.PCR In Vivo: Detection of Abortive Viral Replication
) w0 B, H2 x x. w30. Chapter 27 RNA-Based Methods in Cell Biology: `0 N/ F n0 w0 Q2 @# H
1. Introduction
( f1 J' t/ a$ N0 N: C8 u2. Unit 27.1 Silencing of Gene Expression in Cultured Cells Using Small Interfering RNAs$ V0 y/ Y% S1 r
3. Unit 27.2 Gene Down-Regulation with Short Hairpin RNAs and Validation of Specificity by Inducible
0 K. ^4 T- ~# s+ e' r( \, gRescue in Mammalian Cells# F6 s' @ y# S
31. Appendix 1 Useful Information and Data
5 H, z; ]' s! Z* v# l/ M c! d1. 1A Useful Measurements and Data! e( }6 {; t6 j2 H( @* X3 D1 |
2. 1B Compendium of Drugs Commonly Used in Cell Biology Research
. E/ Y# e) n5 c+ m3. 1C Identification of Motifs in Protein Sequences
. X. c7 d1 w2 N8 T" s4. 1D Safe Use of Radioisotopes6 }' U& z9 v# M$ X- \
5. 1E Absorption and Emission Maxima for Common Fluorophores8 q- V) H1 }1 {3 M7 h \6 c- w6 ?
6. 1F Importing Biological Materials% [! @, V2 N& G$ s: T3 N
7. 1G Centrifuges and Rotors
W* ?) c- L2 P7 v9 f8. 1H Internet Basics for Biologists7 K, Z2 Y2 L, i9 ~) h2 Y
32. Appendix 2 Laboratory Stock Solutions and Equipment
% l3 s, B5 I6 y1. 2A Common Stock Solutions, Buffers, and Media
& I% n3 E4 U: c7 H* j2. 2B Medium Formulations, ^' \2 @# F/ x t, u6 i
3. 2C Standard Laboratory Equipment
* B4 N0 }. B' \, z) I33. Appendix 3 Commonly Used Techniques
) c. q4 X4 _5 p% v8 L) ~% O: I1. 3A Molecular Biology Techniques
; C. \7 O8 F8 s+ q. ^4 Q2. 3B Spectrophotometric Determination of Protein Concentration* e& R, q: U2 O" ?
3. 3C Dialysis and Concentration of Protein Solutions
. P; T$ I. I3 Y* N/ y: E4. 3D Quantification of DNA and RNA with Absorption and Fluorescence Spectroscopy
! I/ e; ~; E/ `0 p9 V1 _8 d+ W5. 3E Silanizing Glassware
6 X4 C* ^* O" n9 r6. 3F Enzymatic Amplification of DNA by PCR: Standard Procedures and Optimization+ q5 N* w0 U) n- y- Z) P5 ~4 I& }
7. 3G Micro RT-PCR) G$ |4 r( {1 g8 c0 T( S2 n3 B
8. 3H The Colorimetric Detection and Quantitation of Total Protein7 z% ~8 q- H+ w, }/ x* h y' B. z W5 a
34. Appendix Suppliers
\( F, `3 `3 g! |1. Selected Suppliers of Reagents and Equipment
7 K9 Z$ n7 ^/ M: j: k) X
6 R# h( w* Y, `2 [3 Z+ ] |
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发表于 2011-3-8 15:53
