PDB-9hzs: 200 A SynPspA rod after incubation with EPL

Basic information

• Entry: Database: PDB / ID: 9hzs
• Title: 200 A SynPspA rod after incubation with EPL
• Components: Chloroplast membrane-associated 30 kD protein
• Keywords: LIPID BINDING PROTEIN / Nucleotide binding / Helical assembly / ESCRT-III fold / Membrane remodeling
• Function / homology: PspA/IM30 / PspA/IM30 family / Chloroplast membrane-associated 30 kD protein
• Biological species: Synechocystis sp. PCC 6803 (bacteria)
• Method: ELECTRON MICROSCOPY / helical reconstruction / cryo EM / Resolution: 4.7 Å
• Authors: Hudina, E. / Junglas, B. / Sachse, C.

Funding support

Germany, 5items

Organization	Grant number	Country
German Research Foundation (DFG)	SA 1882/6-1	Germany
German Research Foundation (DFG)	SCHN 690/16-1	Germany
German Research Foundation (DFG)	SFB1551	Germany
German Research Foundation (DFG)	SFB1552	Germany
German Research Foundation (DFG)	SFB1208	Germany

• Citation: Journal: Proc Natl Acad Sci U S A / Year: 2025; Title: The bacterial ESCRT-III PspA rods thin lipid tubules and increase membrane curvature through helix α0 interactions.; Authors: Esther Hudina / Stephan Schott-Verdugo / Benedikt Junglas / Mirka Kutzner / Ilona Ritter / Nadja Hellmann / Dirk Schneider / Holger Gohlke / Carsten Sachse / ; Abstract: The phage shock protein A (PspA), a bacterial member of the endosomal sorting complexes required for transport (ESCRT)-III superfamily, forms rod-shaped helical assemblies that internalize membrane tubules. The N-terminal helix α0 of PspA (and other ESCRT-III members) has been suggested to act as a membrane anchor; the detailed mechanism, however, of how it binds to membranes and eventually triggers membrane fusion and/or fission events remains unclear. By solving a total of 15 cryoelectron microscopy (cryo-EM) structures of PspA and a truncation lacking the N-terminal helix α0 in the presence of polar lipid membranes, we show in molecular detail how PspA interacts with and remodels membranes: Binding of the N-terminal helix α0 in the outer tubular membrane leaflet induces membrane curvature, supporting membrane tubulation by PspA. Detailed molecular dynamics simulations and free energy computations of interactions between the helix α0 and negatively charged membranes suggest a compensating mechanism between helix-membrane interactions and the energy contributions required for membrane bending. The energetic considerations are in line with the membrane structures observed in the cryo-EM images of tubulated membrane vesicles, fragmented vesicles inside tapered PspA rods, and shedded vesicles emerging at the thinner PspA rod ends. Our results provide insights into the molecular determinants and a potential mechanism of vesicular membrane remodeling mediated by a member of the ESCRT-III superfamily.

History

Deposition	Jan 14, 2025	Deposition site: PDBE / Processing site: PDBE
Revision 1.0	Aug 13, 2025	Provider: repository / Type: Initial release

Assembly

Deposited unit

I: Chloroplast membrane-associated 30 kD protein

A: Chloroplast membrane-associated 30 kD protein

B: Chloroplast membrane-associated 30 kD protein

C: Chloroplast membrane-associated 30 kD protein

D: Chloroplast membrane-associated 30 kD protein

E: Chloroplast membrane-associated 30 kD protein

F: Chloroplast membrane-associated 30 kD protein

G: Chloroplast membrane-associated 30 kD protein

H: Chloroplast membrane-associated 30 kD protein

J: Chloroplast membrane-associated 30 kD protein

K: Chloroplast membrane-associated 30 kD protein

L: Chloroplast membrane-associated 30 kD protein

M: Chloroplast membrane-associated 30 kD protein

N: Chloroplast membrane-associated 30 kD protein

O: Chloroplast membrane-associated 30 kD protein

P: Chloroplast membrane-associated 30 kD protein

Q: Chloroplast membrane-associated 30 kD protein

R: Chloroplast membrane-associated 30 kD protein

S: Chloroplast membrane-associated 30 kD protein

T: Chloroplast membrane-associated 30 kD protein

U: Chloroplast membrane-associated 30 kD protein

V: Chloroplast membrane-associated 30 kD protein

W: Chloroplast membrane-associated 30 kD protein

X: Chloroplast membrane-associated 30 kD protein

Y: Chloroplast membrane-associated 30 kD protein

Z: Chloroplast membrane-associated 30 kD protein

a: Chloroplast membrane-associated 30 kD protein

b: Chloroplast membrane-associated 30 kD protein

c: Chloroplast membrane-associated 30 kD protein

d: Chloroplast membrane-associated 30 kD protein

e: Chloroplast membrane-associated 30 kD protein

f: Chloroplast membrane-associated 30 kD protein

g: Chloroplast membrane-associated 30 kD protein

h: Chloroplast membrane-associated 30 kD protein

i: Chloroplast membrane-associated 30 kD protein

j: Chloroplast membrane-associated 30 kD protein

k: Chloroplast membrane-associated 30 kD protein

l: Chloroplast membrane-associated 30 kD protein

m: Chloroplast membrane-associated 30 kD protein

n: Chloroplast membrane-associated 30 kD protein

o: Chloroplast membrane-associated 30 kD protein

p: Chloroplast membrane-associated 30 kD protein

q: Chloroplast membrane-associated 30 kD protein

r: Chloroplast membrane-associated 30 kD protein

s: Chloroplast membrane-associated 30 kD protein

t: Chloroplast membrane-associated 30 kD protein

u: Chloroplast membrane-associated 30 kD protein

v: Chloroplast membrane-associated 30 kD protein

w: Chloroplast membrane-associated 30 kD protein

x: Chloroplast membrane-associated 30 kD protein

y: Chloroplast membrane-associated 30 kD protein

z: Chloroplast membrane-associated 30 kD protein

0: Chloroplast membrane-associated 30 kD protein

1: Chloroplast membrane-associated 30 kD protein

2: Chloroplast membrane-associated 30 kD protein

3: Chloroplast membrane-associated 30 kD protein

4: Chloroplast membrane-associated 30 kD protein

5: Chloroplast membrane-associated 30 kD protein

6: Chloroplast membrane-associated 30 kD protein

7: Chloroplast membrane-associated 30 kD protein

Summary:

• 1.69 MDa, 60 polymers

Component details:

	Theoretical mass	Number of molelcules
Total (without water)	1,685,865	60
Polymers	1,685,865	60
Non-polymers	0	0
Water	0	0

1

Summary:

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

Symmetry operations:

Type	Name	Symmetry operation	Number
identity operation	1_555		1

Noncrystallographic symmetry (NCS)

NCS domain:

ID	Ens-ID	Details
d_1	ens_1	chain "O"
d_2	ens_1	chain "T"
d_3	ens_1	chain "U"
d_4	ens_1	chain "V"
d_5	ens_1	chain "W"
d_6	ens_1	chain "X"
d_7	ens_1	chain "Y"
d_8	ens_1	chain "Z"
d_9	ens_1	chain "a"
d_10	ens_1	chain "b"
d_11	ens_1	chain "0"
d_12	ens_1	chain "1"
d_13	ens_1	chain "2"
d_14	ens_1	chain "3"
d_15	ens_1	chain "4"
d_16	ens_1	chain "5"
d_17	ens_1	chain "6"
d_18	ens_1	chain "7"
d_19	ens_1	chain "A"
d_20	ens_1	chain "B"
d_21	ens_1	chain "C"
d_22	ens_1	chain "D"
d_23	ens_1	chain "E"
d_24	ens_1	chain "F"
d_25	ens_1	chain "G"
d_26	ens_1	chain "H"
d_27	ens_1	chain "I"
d_28	ens_1	chain "J"
d_29	ens_1	chain "K"
d_30	ens_1	chain "L"
d_31	ens_1	chain "M"
d_32	ens_1	chain "N"
d_33	ens_1	chain "S"
d_34	ens_1	chain "P"
d_35	ens_1	chain "Q"
d_36	ens_1	chain "R"
d_37	ens_1	chain "c"
d_38	ens_1	chain "d"
d_39	ens_1	chain "e"
d_40	ens_1	chain "f"
d_41	ens_1	chain "g"
d_42	ens_1	chain "h"
d_43	ens_1	chain "i"
d_44	ens_1	chain "j"
d_45	ens_1	chain "k"
d_46	ens_1	chain "l"
d_47	ens_1	chain "m"
d_48	ens_1	chain "n"
d_49	ens_1	chain "o"
d_50	ens_1	chain "p"
d_51	ens_1	chain "q"
d_52	ens_1	chain "r"
d_53	ens_1	chain "s"
d_54	ens_1	chain "t"
d_55	ens_1	chain "u"
d_56	ens_1	chain "v"
d_57	ens_1	chain "w"
d_58	ens_1	chain "x"
d_59	ens_1	chain "y"
d_60	ens_1	chain "z"

NCS domain segments:

Component-ID: 1 / Ens-ID: ens_1 / Beg auth comp-ID: GLN / Beg label comp-ID: GLN / End auth comp-ID: SER / End label comp-ID: SER / Auth seq-ID: 22 - 217 / Label seq-ID: 45 - 240

Dom-ID	Auth asym-ID	Label asym-ID
d_1	O	O
d_2	T	T
d_3	U	U
d_4	V	V
d_5	W	W
d_6	X	X
d_7	Y	Y
d_8	Z	Z
d_9	a	AA
d_10	b	BA
d_11	0	AB
d_12	1	BB
d_13	2	CB
d_14	3	DB
d_15	4	EB
d_16	5	FB
d_17	6	GB
d_18	7	HB
d_19	A	B
d_20	B	C
d_21	C	D
d_22	D	E
d_23	E	F
d_24	F	G
d_25	G	H
d_26	H	I
d_27	I	A
d_28	J	J
d_29	K	K
d_30	L	L
d_31	M	M
d_32	N	N
d_33	S	S
d_34	P	P
d_35	Q	Q
d_36	R	R
d_37	c	CA
d_38	d	DA
d_39	e	EA
d_40	f	FA
d_41	g	GA
d_42	h	HA
d_43	i	IA
d_44	j	JA
d_45	k	KA
d_46	l	LA
d_47	m	MA
d_48	n	NA
d_49	o	OA
d_50	p	PA
d_51	q	QA
d_52	r	RA
d_53	s	SA
d_54	t	TA
d_55	u	UA
d_56	v	VA
d_57	w	WA
d_58	x	XA
d_59	y	YA
d_60	z	ZA

Components

#1: Protein

I A B C D E F G H J K L M N O P Q R S ...
Chloroplast membrane-associated 30 kD protein

Details:

Mass: 28097.758 Da / Num. of mol.: 60
Source method: isolated from a genetically manipulated source
Source: (gene. exp.) Synechocystis sp. PCC 6803 (bacteria) / Strain: PCC 6803 / Kazusa / Gene: im30 / Plasmid: pET50del
Details (production host): Based on pET50b(+) with deletion of NusA tag
Production host: Escherichia coli BL21(DE3) (bacteria) / Variant (production host): C41 / References: UniProt: P74717

• Has ligand of interest: Y
• Has protein modification: N

Experimental details

Experiment

• Experiment: Method: ELECTRON MICROSCOPY
• EM experiment: Aggregation state: HELICAL ARRAY / 3D reconstruction method: helical reconstruction

Sample preparation

• Component: Name: Helical assembly of SynPspA after incubation with EPL / Type: COMPLEX / Entity ID: all / Source: RECOMBINANT
• Molecular weight: Value: 1.7 MDa / Experimental value: NO
• Source (natural): Organism: Synechocystis sp. PCC 6803 (bacteria)
• Source (recombinant): Organism: Escherichia coli BL21(DE3) (bacteria) / Strain: C41 / Plasmid: pET50del
• 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: Talos Arctica / Image courtesy: FEI Company
• Microscopy: Model: FEI TALOS ARCTICA
• Electron gun: Electron source: FIELD EMISSION GUN / Accelerating voltage: 200 kV / Illumination mode: FLOOD BEAM
• Electron lens: Mode: BRIGHT FIELD / Nominal defocus max: 3500 nm / Nominal defocus min: 1000 nm
• Image recording: Electron dose: 44 e/Ų / Film or detector model: GATAN K3 BIOQUANTUM (6k x 4k)

Processing

• CTF correction: Type: PHASE FLIPPING AND AMPLITUDE CORRECTION
• Helical symmerty: Angular rotation/subunit: 34.4 ° / Axial rise/subunit: 5.78 Å / Axial symmetry: C2
• 3D reconstruction: Resolution: 4.7 Å / Resolution method: FSC 0.143 CUT-OFF / Num. of particles: 45586 / Symmetry type: HELICAL
• Refinement: Cross valid method: NONE; Stereochemistry target values: GeoStd + Monomer Library + CDL v1.2
• Displacement parameters: B_iso mean: 83.56 Ų

Refine LS restraints

Refine-ID	Type	Dev ideal	Number
ELECTRON MICROSCOPY	f_bond_d	0.0028	95640
ELECTRON MICROSCOPY	f_angle_d	0.3904	128400
ELECTRON MICROSCOPY	f_chiral_restr	0.0245	14160
ELECTRON MICROSCOPY	f_plane_restr	0.0037	17160
ELECTRON MICROSCOPY	f_dihedral_angle_d	12.7962	38280

Refine LS restraints NCS

Ens-ID	Dom-ID	Auth asym-ID	Refine-ID	Type	Rms dev position (Å)
ens_1	d_2	O	ELECTRON MICROSCOPY	NCS constraints	5.94681457262E-11
ens_1	d_3	O	ELECTRON MICROSCOPY	NCS constraints	2.03233595908E-10
ens_1	d_4	O	ELECTRON MICROSCOPY	NCS constraints	2.42834226438E-10
ens_1	d_5	O	ELECTRON MICROSCOPY	NCS constraints	1.1898719245E-10
ens_1	d_6	O	ELECTRON MICROSCOPY	NCS constraints	8.38099428651E-11
ens_1	d_7	O	ELECTRON MICROSCOPY	NCS constraints	3.51087203577E-11
ens_1	d_8	O	ELECTRON MICROSCOPY	NCS constraints	2.85874343291E-11
ens_1	d_9	O	ELECTRON MICROSCOPY	NCS constraints	6.66084735711E-11
ens_1	d_10	O	ELECTRON MICROSCOPY	NCS constraints	6.04415850845E-11
ens_1	d_11	O	ELECTRON MICROSCOPY	NCS constraints	5.92264474113E-11
ens_1	d_12	O	ELECTRON MICROSCOPY	NCS constraints	1.92064734944E-11
ens_1	d_13	O	ELECTRON MICROSCOPY	NCS constraints	5.48457016451E-11
ens_1	d_14	O	ELECTRON MICROSCOPY	NCS constraints	1.83373320984E-10
ens_1	d_15	O	ELECTRON MICROSCOPY	NCS constraints	2.38474242933E-10
ens_1	d_16	O	ELECTRON MICROSCOPY	NCS constraints	2.35754873523E-10
ens_1	d_17	O	ELECTRON MICROSCOPY	NCS constraints	9.33971280946E-11
ens_1	d_18	O	ELECTRON MICROSCOPY	NCS constraints	1.71856107515E-10
ens_1	d_19	O	ELECTRON MICROSCOPY	NCS constraints	2.42609864231E-10
ens_1	d_20	O	ELECTRON MICROSCOPY	NCS constraints	1.21243320127E-12
ens_1	d_21	O	ELECTRON MICROSCOPY	NCS constraints	8.75480426348E-11
ens_1	d_22	O	ELECTRON MICROSCOPY	NCS constraints	3.68709307589E-11
ens_1	d_23	O	ELECTRON MICROSCOPY	NCS constraints	2.67313021071E-11
ens_1	d_24	O	ELECTRON MICROSCOPY	NCS constraints	6.24262912538E-11
ens_1	d_25	O	ELECTRON MICROSCOPY	NCS constraints	6.08788220761E-11
ens_1	d_26	O	ELECTRON MICROSCOPY	NCS constraints	5.29493514403E-11
ens_1	d_27	O	ELECTRON MICROSCOPY	NCS constraints	2.19011860317E-11
ens_1	d_28	O	ELECTRON MICROSCOPY	NCS constraints	8.29705640741E-11
ens_1	d_29	O	ELECTRON MICROSCOPY	NCS constraints	2.29273705693E-10
ens_1	d_30	O	ELECTRON MICROSCOPY	NCS constraints	2.42863303921E-10
ens_1	d_31	O	ELECTRON MICROSCOPY	NCS constraints	1.05310082373E-10
ens_1	d_32	O	ELECTRON MICROSCOPY	NCS constraints	6.15671045452E-11
ens_1	d_33	O	ELECTRON MICROSCOPY	NCS constraints	4.76738450067E-12
ens_1	d_34	O	ELECTRON MICROSCOPY	NCS constraints	4.19811096476E-11
ens_1	d_35	O	ELECTRON MICROSCOPY	NCS constraints	6.47304574297E-11
ens_1	d_36	O	ELECTRON MICROSCOPY	NCS constraints	9.18243793525E-11
ens_1	d_37	O	ELECTRON MICROSCOPY	NCS constraints	2.23433383063E-11
ens_1	d_38	O	ELECTRON MICROSCOPY	NCS constraints	3.53530367426E-11
ens_1	d_39	O	ELECTRON MICROSCOPY	NCS constraints	6.82355197593E-11
ens_1	d_40	O	ELECTRON MICROSCOPY	NCS constraints	1.86550316429E-11
ens_1	d_41	O	ELECTRON MICROSCOPY	NCS constraints	2.25119797004E-11
ens_1	d_42	O	ELECTRON MICROSCOPY	NCS constraints	4.86110618022E-11
ens_1	d_43	O	ELECTRON MICROSCOPY	NCS constraints	1.80711606744E-10
ens_1	d_44	O	ELECTRON MICROSCOPY	NCS constraints	2.34282035268E-10
ens_1	d_45	O	ELECTRON MICROSCOPY	NCS constraints	2.36264038022E-10
ens_1	d_46	O	ELECTRON MICROSCOPY	NCS constraints	9.61460733068E-11
ens_1	d_47	O	ELECTRON MICROSCOPY	NCS constraints	4.33037035322E-11
ens_1	d_48	O	ELECTRON MICROSCOPY	NCS constraints	7.52600234318E-12
ens_1	d_49	O	ELECTRON MICROSCOPY	NCS constraints	5.65179805573E-11
ens_1	d_50	O	ELECTRON MICROSCOPY	NCS constraints	6.87417796338E-11
ens_1	d_51	O	ELECTRON MICROSCOPY	NCS constraints	7.50280785185E-11
ens_1	d_52	O	ELECTRON MICROSCOPY	NCS constraints	1.79849141422E-11
ens_1	d_53	O	ELECTRON MICROSCOPY	NCS constraints	7.79863206144E-11
ens_1	d_54	O	ELECTRON MICROSCOPY	NCS constraints	2.21434024574E-10
ens_1	d_55	O	ELECTRON MICROSCOPY	NCS constraints	2.42034863847E-10
ens_1	d_56	O	ELECTRON MICROSCOPY	NCS constraints	1.11376721212E-10
ens_1	d_57	O	ELECTRON MICROSCOPY	NCS constraints	7.36524529155E-11
ens_1	d_58	O	ELECTRON MICROSCOPY	NCS constraints	1.38645530396E-11
ens_1	d_59	O	ELECTRON MICROSCOPY	NCS constraints	4.05397564244E-11
ens_1	d_60	O	ELECTRON MICROSCOPY	NCS constraints	6.95125279973E-11