PDB-9ue6: Cryo-EM structure of SARS-CoV-2 KP.2 spike RBD in complex with ACE2

Basic information

• Entry: Database: PDB / ID: 9ue6
• Title: Cryo-EM structure of SARS-CoV-2 KP.2 spike RBD in complex with ACE2

Components

• Angiotensin-converting enzyme 2
• Spike protein S1

• Keywords: VIRAL PROTEIN/HYDROLASE / Spike and ACE2 complex / VIRAL PROTEIN-HYDROLASE complex

Function / homology

Function:

positive regulation of amino acid transport / angiotensin-converting enzyme 2 / positive regulation of L-proline import across plasma membrane / Hydrolases; Acting on peptide bonds (peptidases); Metallocarboxypeptidases / angiotensin-mediated drinking behavior / positive regulation of gap junction assembly / regulation of systemic arterial blood pressure by renin-angiotensin / tryptophan transport / regulation of cardiac conduction / maternal process involved in female pregnancy / peptidyl-dipeptidase activity / regulation of vasoconstriction / transporter activator activity / Metabolism of Angiotensinogen to Angiotensins / carboxypeptidase activity / angiotensin maturation / viral life cycle / Attachment and Entry / receptor-mediated endocytosis of virus by host cell / metallocarboxypeptidase activity / positive regulation of cardiac muscle contraction / regulation of cytokine production / blood vessel diameter maintenance / negative regulation of smooth muscle cell proliferation / brush border membrane / negative regulation of ERK1 and ERK2 cascade / positive regulation of reactive oxygen species metabolic process / metallopeptidase activity / endocytic vesicle membrane / regulation of cell population proliferation / virus receptor activity / regulation of inflammatory response / symbiont-mediated disruption of host tissue / endopeptidase activity / Maturation of spike protein / Translation of Structural Proteins / Virion Assembly and Release / host cell surface / host extracellular space / viral translation / symbiont-mediated-mediated suppression of host tetherin activity / Induction of Cell-Cell Fusion / Potential therapeutics for SARS / structural constituent of virion / membrane fusion / entry receptor-mediated virion attachment to host cell / Attachment and Entry / host cell endoplasmic reticulum-Golgi intermediate compartment membrane / positive regulation of viral entry into host cell / receptor-mediated virion attachment to host cell / host cell surface receptor binding / cilium / symbiont-mediated suppression of host innate immune response / apical plasma membrane / receptor ligand activity / membrane raft / endocytosis involved in viral entry into host cell / endoplasmic reticulum lumen / fusion of virus membrane with host plasma membrane / fusion of virus membrane with host endosome membrane / viral envelope / symbiont entry into host cell / virion attachment to host cell / SARS-CoV-2 activates/modulates innate and adaptive immune responses / host cell plasma membrane / virion membrane / cell surface / negative regulation of transcription by RNA polymerase II / extracellular space / extracellular exosome / extracellular region / zinc ion binding / identical protein binding / membrane / plasma membrane

Domain/homology:

Collectrin domain / Renal amino acid transporter / Collectrin-like domain profile. / Peptidase M2, peptidyl-dipeptidase A / Angiotensin-converting enzyme / Peptidase family M2 domain profile. / Neutral zinc metallopeptidases, zinc-binding region signature. / Spike (S) protein S1 subunit, receptor-binding domain, SARS-CoV-2 / Spike (S) protein S1 subunit, N-terminal domain, SARS-CoV-like / Coronavirus spike glycoprotein S1, C-terminal / Coronavirus spike glycoprotein S1, C-terminal / Spike glycoprotein, N-terminal domain superfamily / Spike S1 subunit, receptor binding domain superfamily, betacoronavirus / Spike glycoprotein, betacoronavirus / Betacoronavirus spike (S) glycoprotein S1 subunit N-terminal (NTD) domain profile. / Betacoronavirus spike (S) glycoprotein S1 subunit C-terminal (CTD) domain profile. / Spike (S) protein S1 subunit, receptor-binding domain, betacoronavirus / Betacoronavirus spike glycoprotein S1, receptor binding / Spike glycoprotein S1, N-terminal domain, betacoronavirus-like / Betacoronavirus-like spike glycoprotein S1, N-terminal / Spike glycoprotein S2 superfamily, coronavirus / Spike glycoprotein S2, coronavirus, heptad repeat 1 / Spike glycoprotein S2, coronavirus, heptad repeat 2 / Coronavirus spike (S) glycoprotein S2 subunit heptad repeat 1 (HR1) region profile. / Coronavirus spike (S) glycoprotein S2 subunit heptad repeat 2 (HR2) region profile. / Spike glycoprotein S2, coronavirus / Coronavirus spike glycoprotein S2

Component:

Spike glycoprotein / Angiotensin-converting enzyme 2

• Biological species: Severe acute respiratory syndrome coronavirus 2; Homo sapiens (human)
• Method: ELECTRON MICROSCOPY / single particle reconstruction / cryo EM / Resolution: 2.9 Å
• Authors: Jin, X.H. / Sun, L.

Funding support

China, 1items

Organization	Grant number	Country
National Natural Science Foundation of China (NSFC)	92469108	China

• Citation: Journal: Nat Commun / Year: 2025; Title: Pathogenicity, virological features, and immune evasion of SARS-CoV-2 JN.1-derived variants including JN.1.7, KP.2, KP.3, and KP.3.1.1.; Authors: Jialu Shi / Xiaoyu Zhao / Xiaohui Jin / Jiayan Li / Yuanchen Liu / Huan Liu / Ye-Fan Hu / Zhe Chen / Yuxin Xiao / Lei Wang / Yajie Wang / Yixin He / Yue Chai / Bingjie Hu / Huiping Shuai / Yang Wang / Xiangnan Li / Shujun Jiang / Yanliang Zhang / Xiaojuan Zhang / Wan-Mui Chan / Lin-Lei Chen / Jian-Piao Cai / Baokun Sui / Honglei Zhang / Dong Yang / Longchao Zhu / Shuofeng Yuan / Jie Zhou / Jian-Dong Huang / Kwok-Yung Yuen / Kelvin Kai-Wang To / Jasper Fuk-Woo Chan / Bao-Zhong Zhang / Qiao Wang / Maozhou He / Lei Sun / Pengfei Wang / Hin Chu / ; Abstract: KP.3.1.1 became a dominant successor to JN.1 by the second half of 2024 but the intrinsic pathogenicity and virological feature of KP.3.1.1 remain incompletely understood. Here, we comprehensively evaluated the pathogenesis and characteristics of KP.3.1.1 in comparison to JN.1 and other JN.1-derived variants including JN.1.7, KP.2, and KP.3. The unique S31del mutation on KP.3.1.1 spike confers further evasion to the clinically authorized mAb Pemivibart and reduces convalescent serum neutralization efficiency. Structural analysis indicates that S31del induces novel glycosylation sites that facilitates evasion of neutralizing antibodies. We further reveal that S31del significantly enhances pseudovirus entry efficiency in all evaluated cell types including the human primary nasal epithelial cells. Nevertheless, the intrinsic pathogenicity of KP.3.1.1 is similar to JN.1 and KP.3, and higher than that of JN.1.7 and KP.2 in a male hamster model. Interestingly, the increased virus infectivity conferred by S31del in KP.3.1.1 spike is counterbalanced by the NSP10 S33C mutation. Overall, our study indicates that a single spike mutation can confer both enhanced immune escape and increased viral infectivity. The opposing effects of spike and non-spike mutations highlight the complex interplay of viral genomic elements in shaping their overall fitness, and reveal the high plasticity of coronavirus evolution.

History

Deposition	Apr 8, 2025	Deposition site: PDBJ / Processing site: PDBC
Revision 1.0	Dec 24, 2025	Provider: repository / Type: Initial release
Revision 1.0	Dec 24, 2025	Data content type: EM metadata / Data content type: EM metadata / Provider: repository / Type: Initial release
Revision 1.0	Dec 24, 2025	Data content type: Half map / Part number: 1 / Data content type: Half map / Provider: repository / Type: Initial release
Revision 1.0	Dec 24, 2025	Data content type: Half map / Part number: 2 / Data content type: Half map / Provider: repository / Type: Initial release
Revision 1.0	Dec 24, 2025	Data content type: Image / Data content type: Image / Provider: repository / Type: Initial release
Revision 1.0	Dec 24, 2025	Data content type: Primary map / Data content type: Primary map / Provider: repository / Type: Initial release

Assembly

Deposited unit

A: Spike protein S1

B: Angiotensin-converting enzyme 2

Summary:

• 95.1 kDa, 2 polymers

Component details:

	Theoretical mass	Number of molelcules
Total (without water)	95,062	2
Polymers	95,062	2
Non-polymers	0	0
Water	0	0

1

Summary:

• Idetical with deposited unit
• defined by author&software
• Evidence: electron microscopy, not applicable

Symmetry operations:

Type	Name	Symmetry operation	Number
identity operation	1_555	x,y,z	1

Components

#1: Protein

A Spike protein S1

Details:

Mass: 22072.916 Da / Num. of mol.: 1
Source method: isolated from a genetically manipulated source
Source: (gene. exp.) Severe acute respiratory syndrome coronavirus 2
Gene: S, 2 / Variant: KP.2 / Production host: Homo sapiens (human) / References: UniProt: P0DTC2

#2: Protein

B Angiotensin-converting enzyme 2 / Angiotensin-converting enzyme homolog / ACEH / Angiotensin-converting enzyme-related carboxypeptidase / ACE-related carboxypeptidase / Metalloprotease MPROT15

Details:

Mass: 72989.047 Da / Num. of mol.: 1
Source method: isolated from a genetically manipulated source
Source: (gene. exp.) Homo sapiens (human) / Gene: ACE2, UNQ868/PRO1885 / Production host: Homo sapiens (human)
References: UniProt: Q9BYF1, angiotensin-converting enzyme 2, Hydrolases; Acting on peptide bonds (peptidases); Metallocarboxypeptidases

• Has protein modification: Y

Experimental details

Experiment

• Experiment: Method: ELECTRON MICROSCOPY
• EM experiment: Aggregation state: PARTICLE / 3D reconstruction method: single particle reconstruction

Sample preparation

• Component: Name: KP.2 RBD in complex with ACE2 / Type: COMPLEX / Entity ID: all / Source: MULTIPLE SOURCES
• Source (natural): Organism: Severe acute respiratory syndrome coronavirus 2
• Source (recombinant): Organism: Homo sapiens (human)
• Buffer solution: pH: 8
• Specimen: Embedding applied: NO / Shadowing applied: NO / Staining applied: NO / Vitrification applied: YES
• Vitrification: Cryogen name: ETHANE

Electron microscopy imaging

• Experimental equipment: Model: Titan Krios / Image courtesy: FEI Company
• Microscopy: Model: TFS KRIOS
• Electron gun: Electron source: FIELD EMISSION GUN / Accelerating voltage: 300 kV / Illumination mode: FLOOD BEAM
• Electron lens: Mode: BRIGHT FIELD / Nominal defocus max: 3000 nm / Nominal defocus min: 1000 nm
• Image recording: Electron dose: 50 e/Ų / Film or detector model: FEI FALCON IV (4k x 4k)

Processing

• EM software: Name: PHENIX / Version: 1.17.1_3660 / Category: model refinement
• CTF correction: Type: PHASE FLIPPING AND AMPLITUDE CORRECTION
• Symmetry: Point symmetry: C₁ (asymmetric)
• 3D reconstruction: Resolution: 2.9 Å / Resolution method: FSC 0.143 CUT-OFF / Num. of particles: 393648 / Symmetry type: POINT
• Refinement: Stereochemistry target values: REAL-SPACE (WEIGHTED MAP SUM AT ATOM CENTERS)

Refine LS restraints

Refine-ID	Type	Dev ideal	Number
ELECTRON MICROSCOPY	f_bond_d	0.001	6592
ELECTRON MICROSCOPY	f_angle_d	0.375	8961
ELECTRON MICROSCOPY	f_dihedral_angle_d	20.121	2383
ELECTRON MICROSCOPY	f_chiral_restr	0.037	933
ELECTRON MICROSCOPY	f_plane_restr	0.003	1161