9OM3 image
Deposition Date 2025-05-13
Release Date 2026-05-20
Last Version Date 2026-06-03
Entry Detail
PDB ID:
9OM3
Keywords:
Title:
Two Component Protein Nano-Particle (T=3). De Novo Design, Computationally Relaxed into Low Resolution Single Particle CryoEM Map with Icosahedral Symmetry Applied
Biological Source:
Source Organism(s):
Method Details:
Experimental Method:
Resolution:
17.45 Å
Aggregation State:
PARTICLE
Reconstruction Method:
SINGLE PARTICLE
Macromolecular Entities
Protein Blast
Polymer Type:polypeptide(L)
Molecule:C2-B
Chain IDs:A, C, E, G, I, K, M, O, Q, S, U, W, Y, AA (auth: a), CA (auth: c), EA (auth: e), GA (auth: g), IA (auth: i), KA (auth: k), MA (auth: m), OA (auth: o), QA (auth: q), SA (auth: s), UA (auth: u), WA (auth: w), YA (auth: y), AB (auth: ZA), CB (auth: ZC), EB (auth: ZE), GB (auth: ZG), IB (auth: ZI), KB (auth: AA), MB (auth: AC), OB (auth: AE), QB (auth: AG), SB (auth: AI), UB (auth: AK), WB (auth: AM), YB (auth: AO), AC (auth: AQ), CC (auth: AS), EC (auth: AU), GC (auth: AW), IC (auth: AY), KC (auth: Aa), MC (auth: Ac), OC (auth: Ae), QC (auth: Ag), SC (auth: Ai), UC (auth: Ak), WC (auth: Am), YC (auth: Ao), AD (auth: Aq), CD (auth: As), ED (auth: Au), GD (auth: Aw), ID (auth: Ay), KD (auth: ZK), MD (auth: ZM), OD (auth: ZO), QD (auth: ZQ), SD (auth: ZS), UD (auth: BA), WD (auth: BC), YD (auth: BE), AE (auth: BG), CE (auth: BI), EE (auth: BK), GE (auth: BM), IE (auth: BO), KE (auth: BQ), ME (auth: BS), OE (auth: BU), QE (auth: BW), SE (auth: BY), UE (auth: Ba), WE (auth: Bc), YE (auth: Be), AF (auth: Bg), CF (auth: Bi), EF (auth: Bk), GF (auth: Bm), IF (auth: Bo), KF (auth: Bq), MF (auth: Bs), OF (auth: Bu), QF (auth: Bw), SF (auth: By), UF (auth: ZU), WF (auth: ZW), YF (auth: ZY), AG (auth: YA), CG (auth: YC), EG (auth: CA), GG (auth: CC), IG (auth: CE), KG (auth: CG), MG (auth: CI), OG (auth: CK), QG (auth: CM), SG (auth: CO), UG (auth: CQ), WG (auth: CS), YG (auth: CU), AH (auth: CW), CH (auth: CY), EH (auth: Ca), GH (auth: Cc), IH (auth: Ce), KH (auth: Cg), MH (auth: Ci), OH (auth: Ck), QH (auth: Cm), SH (auth: Co), UH (auth: Cq), WH (auth: Cs), YH (auth: Cu), AI (auth: Cw), CI (auth: Cy), EI (auth: YE), GI (auth: YG), II (auth: YI), KI (auth: YK), MI (auth: YM), OI (auth: DA), QI (auth: DC), SI (auth: DE), UI (auth: DG), WI (auth: DI), YI (auth: DK), AJ (auth: DM), CJ (auth: DO), EJ (auth: DQ), GJ (auth: DS), IJ (auth: DU), KJ (auth: DW), MJ (auth: DY), OJ (auth: Da), QJ (auth: Dc), SJ (auth: De), UJ (auth: Dg), WJ (auth: Di), YJ (auth: Dk), AK (auth: Dm), CK (auth: Do), EK (auth: Dq), GK (auth: Ds), IK (auth: Du), KK (auth: Dw), MK (auth: Dy), OK (auth: YO), QK (auth: YQ), SK (auth: YS), UK (auth: YU), WK (auth: YW), YK (auth: EA), AL (auth: EC), CL (auth: EE), EL (auth: EG), GL (auth: EI), IL (auth: EK), KL (auth: EM), ML (auth: EO), OL (auth: EQ), QL (auth: ES), SL (auth: EU), UL (auth: EW), WL (auth: EY), YL (auth: Ea), AM (auth: Ec), CM (auth: Ee), EM (auth: Eg), GM (auth: Ei), IM (auth: Ek), KM (auth: Em), MM (auth: Eo), OM (auth: Eq), QM (auth: Es), SM (auth: Eu), UM (auth: Ew)
Chain Length:114
Number of Molecules:180
Biological Source:synthetic construct
Protein Blast
Polymer Type:polypeptide(L)
Molecule:C3-A
Chain IDs:B, D, F, H, J, L, N, P, R, T, V, X, Z, BA (auth: b), DA (auth: d), FA (auth: f), HA (auth: h), JA (auth: j), LA (auth: l), NA (auth: n), PA (auth: p), RA (auth: r), TA (auth: t), VA (auth: v), XA (auth: x), ZA (auth: z), BB (auth: ZB), DB (auth: ZD), FB (auth: ZF), HB (auth: ZH), JB (auth: ZJ), LB (auth: AB), NB (auth: AD), PB (auth: AF), RB (auth: AH), TB (auth: AJ), VB (auth: AL), XB (auth: AN), ZB (auth: AP), BC (auth: AR), DC (auth: AT), FC (auth: AV), HC (auth: AX), JC (auth: AZ), LC (auth: Ab), NC (auth: Ad), PC (auth: Af), RC (auth: Ah), TC (auth: Aj), VC (auth: Al), XC (auth: An), ZC (auth: Ap), BD (auth: Ar), DD (auth: At), FD (auth: Av), HD (auth: Ax), JD (auth: Az), LD (auth: ZL), ND (auth: ZN), PD (auth: ZP), RD (auth: ZR), TD (auth: ZT), VD (auth: BB), XD (auth: BD), ZD (auth: BF), BE (auth: BH), DE (auth: BJ), FE (auth: BL), HE (auth: BN), JE (auth: BP), LE (auth: BR), NE (auth: BT), PE (auth: BV), RE (auth: BX), TE (auth: BZ), VE (auth: Bb), XE (auth: Bd), ZE (auth: Bf), BF (auth: Bh), DF (auth: Bj), FF (auth: Bl), HF (auth: Bn), JF (auth: Bp), LF (auth: Br), NF (auth: Bt), PF (auth: Bv), RF (auth: Bx), TF (auth: Bz), VF (auth: ZV), XF (auth: ZX), ZF (auth: ZZ), BG (auth: YB), DG (auth: YD), FG (auth: CB), HG (auth: CD), JG (auth: CF), LG (auth: CH), NG (auth: CJ), PG (auth: CL), RG (auth: CN), TG (auth: CP), VG (auth: CR), XG (auth: CT), ZG (auth: CV), BH (auth: CX), DH (auth: CZ), FH (auth: Cb), HH (auth: Cd), JH (auth: Cf), LH (auth: Ch), NH (auth: Cj), PH (auth: Cl), RH (auth: Cn), TH (auth: Cp), VH (auth: Cr), XH (auth: Ct), ZH (auth: Cv), BI (auth: Cx), DI (auth: Cz), FI (auth: YF), HI (auth: YH), JI (auth: YJ), LI (auth: YL), NI (auth: YN), PI (auth: DB), RI (auth: DD), TI (auth: DF), VI (auth: DH), XI (auth: DJ), ZI (auth: DL), BJ (auth: DN), DJ (auth: DP), FJ (auth: DR), HJ (auth: DT), JJ (auth: DV), LJ (auth: DX), NJ (auth: DZ), PJ (auth: Db), RJ (auth: Dd), TJ (auth: Df), VJ (auth: Dh), XJ (auth: Dj), ZJ (auth: Dl), BK (auth: Dn), DK (auth: Dp), FK (auth: Dr), HK (auth: Dt), JK (auth: Dv), LK (auth: Dx), NK (auth: Dz), PK (auth: YP), RK (auth: YR), TK (auth: YT), VK (auth: YV), XK (auth: YX), ZK (auth: EB), BL (auth: ED), DL (auth: EF), FL (auth: EH), HL (auth: EJ), JL (auth: EL), LL (auth: EN), NL (auth: EP), PL (auth: ER), RL (auth: ET), TL (auth: EV), VL (auth: EX), XL (auth: EZ), ZL (auth: Eb), BM (auth: Ed), DM (auth: Ef), FM (auth: Eh), HM (auth: Ej), JM (auth: El), LM (auth: En), NM (auth: Ep), PM (auth: Er), RM (auth: Et), TM (auth: Ev), VM (auth: Ex)
Chain Length:300
Number of Molecules:180
Biological Source:synthetic construct
Ligand Molecules
Primary Citation

Abstact

Quasisymmetric icosahedral viral capsids achieve larger sizes than possible with strictly symmetric icosahedra by tessellating pentagons and hexagons using a single subunit that adopts different conformations in symmetrically non-equivalent locations(1,2). Recapitulating such quasisymmetric architectures through computational design is a considerable challenge in nanomaterials engineering. Here we introduce a computational design strategy based on geometric frustration to generate two-component, quasisymmetric protein cages with customizable properties. We designed complementary trimeric and dimeric protein components that co-assemble into positively curved local hexagonal assemblies. Hexagonal lattices cannot tile spherical surfaces; instead, the components form closed sphere-like cage assemblies through incorporation of curvature-inducing pentagonal defects, as evidenced by electron microscopy. By designing dimers that encode different local curvatures, we programmed cage dimensions ranging from 40 to over 200 nm in diameter and with molecular weights from 2 MDa to over 50 MDa, comparable with natural virus capsids. We further functionalized these large cages with additional protein domains to enable ribonucleoprotein cargo loading and cellular uptake. Fluorescently labelled cage assemblies expressed in mammalian cells function as rheological probes and cargo recruiters, enabling a systematic study of size-dependent cytoplasmic diffusion and protein localization. Thus, the quasi-symmetry that has long fascinated structural biologists can now be achieved by computational protein design, with immediate applications to biologics delivery and molecular cell biology.

Legend

Protein

Chemical

Disease

Primary Citation of related structures
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