1MWA

H2-Kb presenting "EQYKFYSV" to Alpha/Beta T cell receptor at 2.40Å resolution

Data provenance

Structure downloaded from PDB Europe using the Coordinate Server. Aligned to residues 1-180 of 1HHK2 using the CEALIGN3 function of PyMol4. Chain assigment using a Levenshtein distance5 method using data from the PDBe REST API6. Organism data from PDBe REST API. Data for both of these operations from the Molecules endpoint. Structure visualised with 3DMol7.

Complex type

Class i with peptide and alpha beta tcr

1. Beta 2 microglobulin

['L', 'M']

2. Class I alpha
H2-Kb

['H', 'I']

3. Peptide
EQYKFYSV

['P', 'Q']

4. T cell receptor alpha
TRAV9

['A']

5. T cell receptor beta
TRBV13

['B']

Information on this structure on STCRdab.

Species

Mus musculus (Mouse)

Locus / Allele group

H2-K / H2-Kb

Publication

Structural comparison of allogeneic and syngeneic T cell receptor-peptide-major histocompatibility complex complexes: a buried alloreactive mutation subtly alters peptide presentation substantially increasing V(beta) Interactions.

Luz JG, Huang M, Garcia KC, Rudolph MG, Apostolopoulos V, Teyton L, Wilson IA

J. Exp. Med. (2002) 195, 1175-86 [doi:10.1084/jem.20011644] [pubmed:11994422]

The crystal structures of the 2C/H-2K(bm3)-dEV8 allogeneic complex at 2.4 A and H-2K(bm3)-dEV8 at 2.15 A, when compared with their syngeneic counterparts, elucidate structural changes that induce an alloresponse. The Asp77Ser mutation that imbues H-2K(bm3)-dEV8 with its alloreactive properties is located beneath the peptide and does not directly contact the T cell receptor (TCR). However, the buried mutation induces local rearrangement of the peptide itself to preserve hydrogen bonding interactions between the peptide and the alpha(1) 77 residue. The COOH terminus of the peptide main chain is tugged toward the alpha(1)-helix such that its presentation to the TCR is altered. These changes increase the stability of the allogeneic peptide-major histocompatibility complex (pMHC) complex and increase complementarity in the TCR-pMHC interface, placing greater emphasis on recognition of the pMHC by the TCR beta-chain, evinced by an increase in shape complementarity, buried surface area, and number of TCR-pMHC contacting residues. A nearly fourfold increase in the number of beta-chain-pMHC contacts is accompanied by a concomitant 64% increase in beta-chain-pMHC shape complementarity. Thus, the allogeneic mutation causes the same peptide to be presented differently, temporally and spatially, by the allogeneic and syngeneic MHCs.

Structure deposition and release

Deposited: 2002-09-27

Released: 2002-11-27

Revised: 2020-07-29

Data provenance

Publication data retrieved from PDBe REST API8 and PMCe REST API9

Other structures from this publication

Peptide details

Length: Octamer (8 amino acids)

Sequence: EQYKFYSV

Interactive view

Cutaway side view (static)

Surface top view (static - coloured by atom property)

Cutaway top view (static)

Data provenance

MHC:peptide complexes are visualised using PyMol. The peptide is superimposed on a consistent cutaway slice of the MHC binding cleft (displayed as a grey mesh) which best indicates the binding pockets for the P1/P5/PC positions (side view - pockets A, E, F) and for the P2/P3/PC-2 positions (top view - pockets B, C, D). In some cases peptides will use a different pocket for a specific peptide position (atypical anchoring). On some structures the peptide may appear to sterically clash with a pocket. This is an artefact of picking a standardised slice of the cleft and overlaying the peptide.

Peptide neighbours

P1 GLU

LEU5

ARG62

TYR7

TYR171

TYR159

THR163

TYR59

GLU63

TRP167

LYS66

P2 GLN

TYR45

TYR159

GLU63

LYS66

VAL9

TYR7

SER99

GLU24

ASN70

P3 TYR

SER99

GLN114

GLU152

TYR159

LYS66

ASN70

ARG155

LEU156

P4 LYS

ASN70

GLU152

LYS66

ARG155

P5 PHE

SER99

TYR116

SER73

ASN70

ARG155

GLN114

VAL97

PHE74

VAL9

P6 TYR

ARG155

LYS146

TRP147

TYR116

SER73

GLU152

ALA150

P7 SER

THR143

PHE74

LYS146

SER77

TRP147

SER73

VAL76

P8 VAL

TRP147

LYS146

LEU81

SER77

TYR116

THR80

TYR84

THR143

TYR123

Colour key

Aromatic Hydrophobic Acidic Basic Neutral/polar

Data provenance

Neighbours are calculated by finding residues with atoms within 5Å of each other using BioPython Neighboursearch module. The list of neighbours is then sorted and filtered to inlcude only neighbours where between the peptide and the MHC Class I alpha chain.

Colours selected to match the YRB scheme. [https://www.frontiersin.org/articles/10.3389/fmolb.2015.00056/full]

Binding cleft pockets

Peptide sidechain binding pockets (static)

Peptide terminii and backbone binding residues (static)

A Pocket

TYR159

THR163

TRP167

TYR171

LEU5

TYR59

GLU63

LYS66

TYR7

B Pocket

GLU24

VAL34

TYR45

GLU63

LYS66

ALA67

TYR7

ASN70

VAL9

SER99

C Pocket

ASN70

SER73

PHE74

VAL9

VAL97

D Pocket

GLN114

ARG155

LEU156

TYR159

LEU160

SER99

E Pocket

GLN114

TRP147

GLU152

LEU156

VAL97

F Pocket

TYR116

TYR123

THR143

LYS146

TRP147

SER77

THR80

LEU81

TYR84

ILE95

Colour key

Binds N-terminus Binds P1 backbone Binds P2 backbone Binds PC-1 backbone Binds C-terminus

Data provenance

N-/C-terminus and peptide backbone binding residues are assigned according to previously published information and pockets are assigned according to an adaptation of a previously published set of residues. All numbering is currently that of the 'canonical' structures of human and mouse MHC Class I molecules.

Chain sequences

1. Beta 2 microglobulin Beta 2 microglobulin	10 20 30 40 50 60 IQKTPQIQVYSRHPPENGKPNILNCYVTQFHPPHIEIQMLKNGKKIPKVEMSDMSFSKDW 70 80 90 SFYILAHTEFTPTETDTYACRVKHDSMAEPKTVYWDRDM

2. Class I alpha H2-Kb	10 20 30 40 50 60 GPHSLRYFVTAVSRPGLGEPRYMEVGYVDDTEFVRFDSDAENPRYEPRARWMEQEGPEYW 70 80 90 100 110 120 ERETQKAKGNEQSFRVSLRTLLGYYNQSAGGSHTIQVISGCEVGSDGRLLRGYQQYAYDG 130 140 150 160 170 180 CDYIALNEDLKTWTAADMAALITKHKWEQAGEAERLRAYLEGTCVEWLRRYLKNGNATLL 190 200 210 220 230 240 RTDSPKAHVTHHSRPEDKVTLRCWALGFYPADITLTWQLNGEELIQDMELVETRPAGDGT 250 260 270 FQKWASVVVPLGKEQYYTCHVYHQGLPEPLTLRWR

3. Peptide	EQYKFYSV

4. T cell receptor alpha T cell receptor alpha TRAV9	10 20 30 40 50 60 QSVTQPDARVTVSEGASLQLRCKYSYSATPYLFWYVQYPRQGLQLLLKYYSGDPVVQGVN 70 80 90 100 110 120 GFEAEFSKSNSSFHLRKASVHWSDSAVYFCAVSGFASALTFGSGTKVIVLPYIQNPEPAV 130 140 150 160 170 180 YALKDPRSQDSTLCLFTDFDSQINVPKTMESGTFITDATVLDMKAMDSKSNGAIAWSNQT 190 200 SFTCQDIFKETNATYPSSDVPC

5. T cell receptor beta T cell receptor beta TRBV13	10 20 30 40 50 60 EAAVTQSPRNKVAVTGGKVTLSCNQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDI 70 80 90 100 110 120 PDGYKASRPSQENFSLILELATPSQTSVYFCASGGGGTLYFGAGTRLSVLEDLRNVTPPK 130 140 150 160 170 180 VSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSY 190 200 210 220 230 CLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRADC

Data provenance

Sequences are retrieved via the Uniprot method of the RSCB REST API. Sequences are then compared to those derived from the PDB file and matched against sequences retrieved from the IPD-IMGT/HLA database for human sequences, or the IPD-MHC database for other species. Mouse sequences are matched against FASTA files from Uniprot. Sequences for the mature extracellular protein (signal petide and cytoplasmic tail removed) are compared to identical length sequences from the datasources mentioned before using either exact matching or Levenshtein distance based matching.

Downloadable data

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Complete structures

Aligned structures [cif]

1MWA assembly 1

Components

MHC Class I alpha chain [cif]

1MWA assembly 1

MHC Class I antigen binding domain (alpha1/alpha2) [cif]

1MWA assembly 1

Peptide only [cif]

1MWA assembly 1

Derived data

Data for this page [json]

https://api.histo.fyi/v1/structures/1mwa

Data license

The data above is made available under a Creative Commons CC-BY 4.0 license. This means you can copy, remix, transform, build upon and redistribute the material, but you must give appropriate credit, provide a link to the license, and indicate if changes were made.

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Footnotes

Protein Data Bank Europe - Coordinate Server
1HHK - HLA-A*02:01 binding LLFGYPVYV at 2.5Å resolution - PDB entry for 1HHK
Protein structure alignment by incremental combinatorial extension (CE) of the optimal path. - PyMol CEALIGN Method - Publication
PyMol - PyMol.org/pymol
Levenshtein distance - Wikipedia entry
Protein Data Bank Europe REST API - Molecules endpoint
3Dmol.js: molecular visualization with WebGL - 3DMol.js - Publication
Protein Data Bank Europe REST API - Publication endpoint
PubMed Central Europe REST API - Articles endpoint

This work is licensed under a Creative Commons Attribution 4.0 International License.