PDBsum entry: 1nfi

Complex (transcription reg/ank repeat)

PDB-id

1nfi


	Asymmetric unit

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Contents

Description

Header details

Protein chains

Waters ×71

* Residue conservation analysis

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		Biological unit, trimer (as deduced by PQS)

PDB id:

1nfi

Name:

Complex (transcription reg/ank repeat)

Title:

I-kappa-b-alpha/nf-kappa-b complex

Structure:

Nf-kappa-b p65. Chain: a, c. Engineered: yes. Nf-kappa-b p50. Chain: b, d. Engineered: yes. I-kappa-b-alpha. Chain: e, f. Fragment: ankyrin.

Source:

Homo sapiens. Human. Organism_taxid: 9606. Expressed in: escherichia coli. Expression_system_taxid: 562. Expression_system_taxid: 562

Biological unit:

Trimer (from PQS)

UniProt:

Chains A, C: Q04206 (TF65_HUMAN)

Seq:

Struc:


Seq:

Struc:


Seq:				551 a.a.

Struc:				295 a.a.*

Chains B, D: P19838 (NFKB1_HUMAN)

Seq:

Struc:


Seq:

Struc:


Seq:

Struc:


Seq:				968 a.a.

Struc:				107 a.a.

Chains E, F: P25963 (IKBA_HUMAN)

Seq:

Struc:

Seq:

317 a.a.

Struc:

213 a.a.

Key:		PfamA domain			PfamB domain
		Secondary structure			CATH domain

* PDB and UniProt seqs differ at 1 residue position (black cross)

Resolution:

2.70Å

R-factor:

0.223

R-free:

0.265

Authors:

M.D.Jacobs,S.C.Harrison

Key ref:

M.D.Jacobs and S.C.Harrison (1998). Structure of an IkappaBalpha/NF-kappaB complex.. Cell, 95, 749-758. [PubMed id: 9865693] [DOI: 10.1016/S0092-8674(00)81698-0]

Date:

25-Aug-98

Release date:

18-Nov-98

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Key reference

DOI no: 10.1016/S0092-8674(00)81698-0 Cell 95:749-758 (1998)

PubMed id: 9865693

Structure of an IkappaBalpha/NF-kappaB complex.

M.D.Jacobs, S.C.Harrison.

ABSTRACT

The inhibitory protein, IkappaBalpha, sequesters the transcription factor, NF-kappaB, as an inactive complex in the cytoplasm. The structure of the IkappaBalpha ankyrin repeat domain, bound to a partially truncated NF-kappaB heterodimer (p50/ p65), has been determined by X-ray crystallography at 2.7 A resolution. It shows a stack of six IkappaBalpha ankyrin repeats facing the C-terminal domains of the NF-kappaB Rel homology regions. Contacts occur in discontinuous patches, suggesting a combinatorial quality for ankyrin repeat specificity. The first two repeats cover an alpha helically ordered segment containing the p65 nuclear localization signal. The position of the sixth ankyrin repeat shows that full-length IkappaBalpha will occlude the NF-kappaB DNA-binding cleft. The orientation of IkappaBalpha in the complex places its N- and C-terminal regions in appropriate locations for their known regulatory functions.

Selected figure(s)

Figure 4.
Figure 4. Contacts between NF-κB and IκBα(a) The backbone of IκBα is shown as an orange strand against the van der Waals contact surface of NF-κB. The surface is colored dark blue where the center of an atom of IκBα is within 3.8 Å of an atom of NF-κB, and graded from light blue to white for distances up to 4.5 Å. This figure is related by a 180° rotation relative to the view in Figure 1B. The thin strip of continuity between the p50 contact (left) and the p65 contact (right) is the conserved salt-bridge network shown in Figure 5B.(b) The backbones of the dimerization domains of NF-κB are shown as orange strands against the van der Waals contact surface of IκBα. This view is in the same orientation as Figure 1B. Note how the fingers of IκBα project forward toward the edge of the p50 RHR-c.(c) Residues of IκBα where side chains make contacts with NF-κB are shown in color on a space-filling representation of the ankyrin repeat stack. The orientation of the model is the same as in Figure 1B and Figure 4B. Residues contacting the p50 RHR-c are in red; those contacting p65 RHR-c are in dark blue; those contacting the p65 NLS and the segment C-terminal to it are in light blue. These residues are also indicated by colored boxes in Figure 3A. (a) and (b) were made using the program GRASP ( [45]), and (c), using the program RIBBONS ( [13]). Figure 6.
Figure 6. Diagram of the IκB/NF-κB Complex, Showing Additional Interactions and Relative Positions of Domains Not Included in the Crystal StructureSpace-filling representations of the ankyrin domain of IκBα and of the RHRs of p65 and p50 are shown, with strands to represent N- or C-terminal extensions. The C-terminal extension of p65 includes segments likely to interact with the transcription machinery. The C terminus of p50 following the NLS is a glycine-rich tail. In p105, this tail connects to an IκB domain. The figure shows that this connection can be a simple loop. The N-terminal 69 residues of IκBα include the sites for phosphorylation and ubiquitination as well as residues thought to mask the p50 NLS. The C-terminal extension of IκBα occludes the DNA-binding site; it contains a proline, glutamic-acid, serine, and threonine-rich segment (PEST domain), which regulates basal turnover ([59]). The color scheme conforms to Figure 1. Features with labels in colored boxes are parts of the complex not present or not ordered in the crystal structure. The p50 RHR-n has been modeled in an orientation, relative to p50 RHR-c, similar to the orientation of p65 RHR-n relative to p65 RHR-c in the structure. Both of the RHR N-terminal domains may actually adopt a variety of orientations, due to the flexibility of the RHR linker. Figures made with the program RIBBONS ( [13]).

The above figures are reprinted by permission from Cell Press: Cell (1998, 95, 749-758) copyright 1998.

Figures were selected by the author.

Literature references that cite this PDB file's key reference

PubMed id Reference

20063881 P.R.Markwick, C.F.Cervantes, B.L.Abel, E.A.Komives, M.Blackledge, and J.A.McCammon (2010).
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19064729 A.L.Samuels, S.P.Klinken, and E.Ingley (2009).
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19507254 A.Lake, L.A.Shield, P.Cordano, D.T.Chui, J.Osborne, S.Crae, K.S.Wilson, S.Tosi, S.J.Knight, S.Gesk, R.Siebert, R.T.Hay, and R.F.Jarrett (2009).
Mutations of NFKBIA, encoding IkappaB alpha, are a recurrent finding in classical Hodgkin lymphoma but are not a unifying feature of non-EBV-associated cases.

Int J Cancer, 125, 1334-1342.

20066092 A.Oeckinghaus, and S.Ghosh (2009).
The NF-kappaB family of transcription factors and its regulation.

Cold Spring Harbor Perspect Biol, 1, a000034.

19591507 C.F.Cervantes, P.R.Markwick, S.C.Sue, J.A.McCammon, H.J.Dyson, and E.A.Komives (2009).
Functional dynamics of the folded ankyrin repeats of I kappa B alpha revealed by nuclear magnetic resonance.

Biochemistry, 48, 8023-8031.

19224334 C.F.László, and S.Wu (2009).
Old target new approach: an alternate NF-kappaB activation pathway via translation inhibition.

Mol Cell Biochem, 328, 9.

19900276 D.Sorriento, A.Campanile, G.Santulli, E.Leggiero, L.Pastore, B.Trimarco, and G.Iaccarino (2009).
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Mol Cancer, 8, 97.

19661024 G.Aparicio, M.B.Calvo, V.Medina, O.Fernández, P.Jiménez, M.Lema, A.Figueroa, and L.M.Antón Aparicio (2009).
Comprehensive lung injury pathology induced by mTOR inhibitors.

Clin Transl Oncol, 11, 499-510.

19187222 L.Liu, T.Sakai, N.H.Tran, R.Mukai-Sakai, R.Kaji, and K.Fukui (2009).
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FEBS J, 276, 1459-1470.

19845602 M.E.Cockman, J.D.Webb, and P.J.Ratcliffe (2009).
FIH-dependent asparaginyl hydroxylation of ankyrin repeat domain-containing proteins.

Ann N Y Acad Sci, 1177, 9.

19307325 N.Soto-Nieves, I.Puga, B.T.Abe, S.Bandyopadhyay, I.Baine, A.Rao, and F.Macian (2009).
Transcriptional complexes formed by NFAT dimers regulate the induction of T cell tolerance.

J Exp Med, 206, 867-876.

19887633 S.Bergqvist, V.Alverdi, B.Mengel, A.Hoffmann, G.Ghosh, and E.A.Komives (2009).
Kinetic enhancement of NF-kappaBxDNA dissociation by IkappaBalpha.

Proc Natl Acad Sci U S A, 106, 19328-19333.

19211746 S.J.Chang, J.C.Hsiao, S.Sonnberg, C.T.Chiang, M.H.Yang, D.L.Tzou, A.A.Mercer, and W.Chang (2009).
Poxvirus host range protein CP77 contains an F-box-like domain that is necessary to suppress NF-kappaB activation by tumor necrosis factor alpha but is independent of its host range function.

J Virol, 83, 4140-4152.

20066103 T.Huxford, and G.Ghosh (2009).
A structural guide to proteins of the NF-kappaB signaling module.

Cold Spring Harbor Perspect Biol, 1, a000075.

19668332 V.Ropars, G.Despouy, M.H.Stern, S.Benichou, C.Roumestand, and S.T.Arold (2009).
The TCL1A oncoprotein interacts directly with the NF-kappaB inhibitor IkappaB.

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19117955 Y.Yang, X.Wang, C.A.Hawkins, K.Chen, J.Vaynberg, X.Mao, Y.Tu, X.Zuo, J.Wang, Y.X.Wang, C.Wu, N.Tjandra, and J.Qin (2009).
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Copine-I represses NF-kappaB transcription by endoproteolysis of p65.

Oncogene, 27, 3516-3526.

18758478 R.A.Kovall (2008).
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Oncogene, 27, 5099-5109.

18824506 S.Bergqvist, G.Ghosh, and E.A.Komives (2008).
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17148610 S.M.Truhlar, J.W.Torpey, and E.A.Komives (2006).
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15757897 M.P.Lussier, S.Cayouette, P.K.Lepage, C.L.Bernier, N.Francoeur, M.St-Hilaire, M.Pinard, and G.Boulay (2005).
MxA, a member of the dynamin superfamily, interacts with the ankyrin-like repeat domain of TRPC.

J Biol Chem, 280, 19393-19400.

15802643 O.Y.Lubman, R.Kopan, G.Waksman, and S.Korolev (2005).
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Protein Sci, 14, 1274-1281.

PDB code: 1ymp

15677444 R.Fagerlund, L.Kinnunen, M.Köhler, I.Julkunen, and K.Melén (2005).
NF-{kappa}B is transported into the nucleus by importin {alpha}3 and importin {alpha}4.

J Biol Chem, 280, 15942-15951.

16094386 S.Gross, and D.Piwnica-Worms (2005).
Real-time imaging of ligand-induced IKK activation in intact cells and in living mice.

Nat Methods, 2, 607-614.

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Redox regulation of NF-kappaB activation: distinct redox regulation between the cytoplasm and the nucleus.

Antioxid Redox Signal, 7, 395-403.

15215520 C.H.Croy, S.Bergqvist, T.Huxford, G.Ghosh, and E.A.Komives (2004).
Biophysical characterization of the free IkappaBalpha ankyrin repeat domain in solution.

Protein Sci, 13, 1767-1777.

15140882 G.Xiao, A.Fong, and S.C.Sun (2004).
Induction of p100 processing by NF-kappaB-inducing kinase involves docking IkappaB kinase alpha (IKKalpha) to p100 and IKKalpha-mediated phosphorylation.

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14573596 H.Pang, M.Bartlam, Q.Zeng, H.Miyatake, T.Hisano, K.Miki, L.L.Wong, G.F.Gao, and Z.Rao (2004).
Crystal structure of human pirin: an iron-binding nuclear protein and transcription cofactor.

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PDB code: 1j1l

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The ankyrin repeat as molecular architecture for protein recognition.

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EMBO J, 23, 3929-3938.

PDB code: 1wdy

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PDB code: 1uoh

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Regulation of constitutive p50/c-Rel activity via proteasome inhibitor-resistant IkappaBalpha degradation in B cells.

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15024004 T.Ito, Y.Hozumi, F.Sakane, S.Saino-Saito, H.Kanoh, M.Aoyagi, H.Kondo, and K.Goto (2004).
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Regulation of c-Rel nuclear localization by binding of Ca2+/calmodulin.

Mol Cell Biol, 23, 1418-1427.

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Designed to be stable: crystal structure of a consensus ankyrin repeat protein.

Proc Natl Acad Sci U S A, 100, 1700-1705.

PDB code: 1mj0

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12624092 H.R.Mott, D.Nietlispach, L.J.Hopkins, G.Mirey, J.H.Camonis, and D.Owen (2003).
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J Biol Chem, 278, 17053-17059.

PDB code: 1hk6

14621993 J.Li, S.H.Joo, and M.D.Tsai (2003).
An NF-kappaB-specific inhibitor, IkappaBalpha, binds to and inhibits cyclin-dependent kinase 4.

Biochemistry, 42, 13476-13483.

14573873 M.E.Zweifel, D.J.Leahy, F.M.Hughson, and D.Barrick (2003).
Structure and stability of the ankyrin domain of the Drosophila Notch receptor.

Protein Sci, 12, 2622-2632.

PDB code: 1ot8

12949493 M.J.Giffin, J.C.Stroud, D.L.Bates, K.D.von Koenig, J.Hardin, and L.Chen (2003).
Structure of NFAT1 bound as a dimer to the HIV-1 LTR kappa B element.

Nat Struct Biol, 10, 800-806.

PDB code: 1p7h

14613580 M.P.Kracklauer, and C.Schmidt (2003).
At the crossroads of SUMO and NF-kappaB.

Mol Cancer, 2, 39.

12832462 S.Beinke, J.Deka, V.Lang, M.P.Belich, P.A.Walker, S.Howell, S.J.Smerdon, S.J.Gamblin, and S.C.Ley (2003).
NF-kappaB1 p105 negatively regulates TPL-2 MEK kinase activity.

Mol Cell Biol, 23, 4739-4752.

12686541 S.Malek, D.B.Huang, T.Huxford, S.Ghosh, and G.Ghosh (2003).
X-ray crystal structure of an IkappaBbeta x NF-kappaB p65 homodimer complex.

J Biol Chem, 278, 23094-23100.

PDB codes: 1k3z 1oy3

11801607 A.Birbach, P.Gold, B.R.Binder, E.Hofer, R.de Martin, and J.A.Schmid (2002).
Signaling molecules of the NF-kappa B pathway shuttle constitutively between cytoplasm and nucleus.

J Biol Chem, 277, 10842-10851.

12456660 L.F.Chen, Y.Mu, and W.C.Greene (2002).
Acetylation of RelA at discrete sites regulates distinct nuclear functions of NF-kappaB.

EMBO J, 21, 6539-6548.

12475944 L.M.Budde, C.Wu, C.Tilman, I.Douglas, and S.Ghosh (2002).
Regulation of IkappaBbeta expression in testis.

Mol Biol Cell, 13, 4179-4194.

11850407 M.Davis, A.Hatzubai, J.S.Andersen, E.Ben-Shushan, G.Z.Fisher, A.Yaron, A.Bauskin, F.Mercurio, M.Mann, and Y.Ben-Neriah (2002).
Pseudosubstrate regulation of the SCF(beta-TrCP) ubiquitin ligase by hnRNP-U.

Genes Dev, 16, 439-451.

11971907 P.Knuefermann, P.Chen, A.Misra, S.P.Shi, M.Abdellatif, and N.Sivasubramanian (2002).
Myotrophin/V-1, a protein up-regulated in the failing human heart and in postnatal cerebellum, converts NFkappa B p50-p65 heterodimers to p50-p50 and p65-p65 homodimers.

J Biol Chem, 277, 23888-23897.

12456646 P.Michaely, D.R.Tomchick, M.Machius, and R.G.Anderson (2002).
Crystal structure of a 12 ANK repeat stack from human ankyrinR.

EMBO J, 21, 6387-6396.

PDB code: 1n11

12538160 T.C.Mitchell, B.S.Thompson, J.O.Trent, and C.R.Casella (2002).
A short domain within Bcl-3 is responsible for its lymphocyte survival activity.

Ann N Y Acad Sci, 975, 132-147.

12213807 T.Nishi, N.Shimizu, M.Hiramoto, I.Sato, Y.Yamaguchi, M.Hasegawa, S.Aizawa, H.Tanaka, K.Kataoka, H.Watanabe, and H.Handa (2002).
Spatial redox regulation of a critical cysteine residue of NF-kappa B in vivo.

J Biol Chem, 277, 44548-44556.

11567158 A.Perrakis, M.Harkiolaki, K.S.Wilson, and V.S.Lamzin (2001).
ARP/wARP and molecular replacement.

Acta Crystallogr D Biol Crystallogr, 57, 1445-1450.

11707390 F.Michel, M.Soler-Lopez, C.Petosa, P.Cramer, U.Siebenlist, and C.W.Müller (2001).
Crystal structure of the ankyrin repeat domain of Bcl-3: a unique member of the IkappaB protein family.

EMBO J, 20, 6180-6190.

PDB codes: 1k1a 1k1b

11604520 H.Poulsen, J.Nilsson, C.K.Damgaard, J.Egebjerg, and J.Kjems (2001).
CRM1 mediates the export of ADAR1 through a nuclear export signal within the Z-DNA binding domain.

Mol Cell Biol, 21, 7862-7871.

11602750 J.Hemelaar, F.Bex, B.Booth, V.Cerundolo, A.McMichael, and S.Daenke (2001).
Human T-cell leukemia virus type 1 Tax protein binds to assembled nuclear proteasomes and enhances their proteolytic activity.

J Virol, 75, 11106-11115.

11238906 J.M.Mingot, E.A.Espeso, E.Díez, and M.A.Peñalva (2001).
Ambient pH signaling regulates nuclear localization of the Aspergillus nidulans PacC transcription factor.

Mol Cell Biol, 21, 1688-1699.

11737207 K.Tago, M.Funakoshi, H.Mano, K.Yanagisawa, M.Hayakawa, K.Kuroiwa, H.Iwahana, T.Kasahara, and S.Tominaga (2001).
Presence of a genistein-responsive inhibitory mechanism on interleukin-1alpha-induced NF-kappaB activation.

Eur J Biochem, 268, 6526-6533.

11463838 N.Nekrep, M.Geyer, N.Jabrane-Ferrat, and B.M.Peterlin (2001).
Analysis of ankyrin repeats reveals how a single point mutation in RFXANK results in bare lymphocyte syndrome.

Mol Cell Biol, 21, 5566-5576.

11416149 T.T.Huang, and S.Miyamoto (2001).
Postrepression activation of NF-kappaB requires the amino-terminal nuclear export signal specific to IkappaBalpha.

Mol Cell Biol, 21, 4737-4747.

11416157 W.F.Tam, W.Wang, and R.Sen (2001).
Cell-specific association and shuttling of IkappaBalpha provides a mechanism for nuclear NF-kappaB in B lymphocytes.

Mol Cell Biol, 21, 4837-4846.

10938133 A.M.DeSandro, U.M.Nagarajan, and J.M.Boss (2000).
Associations and interactions between bare lymphocyte syndrome factors.

Mol Cell Biol, 20, 6587-6599.

10637284 B.Jungnickel, A.Staratschek-Jox, A.Bräuninger, T.Spieker, J.Wolf, V.Diehl, M.L.Hansmann, K.Rajewsky, and R.Küppers (2000).
Clonal deleterious mutations in the IkappaBalpha gene in the malignant cells in Hodgkin's lymphoma.

J Exp Med, 191, 395-402.

11124807 D.H.Lum, P.E.Kuwabara, D.Zarkower, and A.M.Spence (2000).
Direct protein-protein interaction between the intracellular domain of TRA-2 and the transcription factor TRA-1A modulates feminizing activity in C. elegans.

Genes Dev, 14, 3153-3165.

10757765 D.J.Begun, and P.Whitley (2000).
Adaptive evolution of relish, a Drosophila NF-kappaB/IkappaB protein.

Genetics, 154, 1231-1238.

10713156 M.A.Read, J.E.Brownell, T.B.Gladysheva, M.Hottelet, L.A.Parent, M.B.Coggins, J.W.Pierce, V.N.Podust, R.S.Luo, V.Chau, and V.J.Palombella (2000).
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The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB code is shown on the right.