[1]Li S,Paulsson K M,Chen S,Sjögren H O,Wang P.Tapasin is required for efficient peptide binding to transporter associated with antigen processing[J].The Journal of biological chemistry,2000,275(3):1581-1586.

[2]Dönnes Pierre,Kohlbacher Oliver.Integrated modeling of the major events in the MHC class I antigen processing pathway[J].Protein science : a publication of the Protein Society,2005,14(8):2132-2140.

[3]Bhasin Manoj,Raghava G P S.Analysis and prediction of affinity of TAP binding peptides using cascade SVM[J].Protein science : a publication of the Protein Society,2004,13(3):596-607.

[4]Wright Cynthia Anne,Kozik Patrycja,Zacharias Martin,Springer Sebastian.Tapasin and other chaperones: models of the MHC class I loading complex[J].Biological chemistry,2004,385(9):763-778.

[5]Yu Kun,Petrovsky Nikolai,Schönbach Christian,Koh Judice Y L,Brusic Vladimir.Methods for prediction of peptide binding to MHC molecules: a comparative study[J].Molecular medicine (Cambridge, Mass.),2002,8(3):137-148.

[6]Brusic V,van Endert P,Zeleznikow J,Daniel S,Hammer J,Petrovsky N.A neural network model approach to the study of human TAP transporter[J].In silico biology,1999,1(2):109-121.

[7]Guang Lan Zhang,Nikolai Petrovsky,Chee Keong Kwoh,J Thomas August,Vladimir Brusic.PREDTAP: a system for prediction of peptide binding to the human transporter associated with antigen processing[J].Immunome research,2006,2(1):1-12.

[8]Thomas Stranzl,Mette Voldby Larsen,Claus Lundegaard,Morten Nielsen.NetCTLpan: pan-specific MHC class I pathway epitope predictions[J].Immunogenetics,2010,62(6):357-368.

[9]Doytchinova Irini A,Flower Darren R.Quantitative approaches to computational vaccinology[J].Immunology and cell biology,2002,80(3):270-279.

[10]Neumann L,Tampé R.Kinetic analysis of peptide binding to the TAP transport complex: evidence for structural rearrangements induced by substrate binding[J].Journal of molecular biology,1999,294(5):1203-1213.

[11]Alberts P,Daumke O,Deverson E V,Howard J C,Knittler M R.Distinct functional properties of the TAP subunits coordinate the nucleotide-dependent transport cycle[J].Current biology : CB,2001,11(4):242-251.

[12]Christian Schölz,Robert TampéEmail author.The Intracellular Antigen Transport Machinery TAP in Adaptive Immunity and Virus Escape Mechanisms[J].Journal of bioenergetics and biomembranes,2005,37(6):509-515.

[13]Koch Joachim,Guntrum Renate,Tampé Robert.The first N-terminal transmembrane helix of each subunit of the antigenic peptide transporter TAP is essential for independent tapasin binding[J].FEBS letters,2006,580(17):4091-4096.

[14]Syed Monem Rizvi,Malini Raghavan.Mechanisms of Function of Tapasin,a Critical Major Histocompatibility Complex Class I Assembly Factor[J].Traffic (Copenhagen, Denmark),2010,11(3):332-347.

[15]Jørgensen Kasper Winther,Buus Søren,Nielsen Morten.Structural properties of MHC class II ligands, implications for the prediction of MHC class II epitopes[J].PloS one,2010,5(12):e15877.

[16]Lankat-Buttgereit B,Tampé R.The transporter associated with antigen processing TAP: structure and function[J].FEBS letters,1999,464(3):108-112.

[17]Koch Joachim,Guntrum Renate,Tampé Robert.Exploring the minimal functional unit of the transporter associated with antigen processing[J].FEBS letters,2005,579(20):4413-4416.

[18]Saveanu L,Daniel S,van Endert P M.Distinct functions of the ATP binding cassettes of transporters associated with antigen processing: a mutational analysis of Walker A and B sequences[J].The Journal of biological chemistry,2001,276(25):22107-22113.

[19]Pentcheva T,Edidin M.Clustering of peptide-loaded MHC class I molecules for endoplasmic reticulum export imaged by fluorescence resonance energy transfer[J].Journal of immunology (Baltimore, Md. : 1950),2001,166(11):6625-6632.

[20]Doytchinova Irini,Hemsley Shelley,Flower Darren R.Transporter associated with antigen processing preselection of peptides binding to the MHC: a bioinformatic evaluation[J].Journal of immunology (Baltimore, Md. : 1950),2004,173(11):6813-6819.