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Zinc in PDB 6d5q: Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant

Enzymatic activity of Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant

All present enzymatic activity of Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant:
3.4.24.27;

Protein crystallography data

The structure of Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant, PDB code: 6d5q was solved by D.H.Juers, with X-Ray Crystallography technique. A brief refinement statistics is given in the table below:

*Resolution Low / High (Å)*	13.83 / 2.00
*Space group*	P 6₁ 2 2
*Cell size a, b, c (Å), α, β, γ (°)*	93.386, 93.386, 129.878, 90.00, 90.00, 120.00
*R / R_free (%)*	21.8 / 29.8

Other elements in 6d5q:

The structure of Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant also contains other interesting chemical elements:

Calcium

(Ca)

4 atoms

Zinc Binding Sites:

The binding sites of Zinc atom in the Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant (pdb code 6d5q). This binding sites where shown within 5.0 Angstroms radius around Zinc atom.
In total only one binding site of Zinc was determined in the Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant, PDB code: 6d5q:

Zinc binding site 1 out of 1 in 6d5q

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Zinc Binding Sites List in 6d5q

Zinc binding site 1 out of 1 in the Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant

Mono view

Stereo pair view

A full contact list of Zinc with other atoms in the Zn binding site number 1 of Hexagonal Thermolysin Cryocooled to 100 K with 30% Xylose As Cryoprotectant within 5.0Å range:

probe	atom	residue	distance (Å)	B	Occ
A:Zn403 b:27.6 occ:0.97	O	A:HOH543	2.0	25.9	1.0
	OE2	A:GLU166	2.0	32.0	1.0
	NE2	A:HIS146	2.2	23.7	1.0
	NE2	A:HIS142	2.2	23.9	1.0
	CD	A:GLU166	2.8	29.1	1.0
	OE1	A:GLU166	2.9	40.4	1.0
	CD2	A:HIS146	3.1	29.0	1.0
	CD2	A:HIS142	3.1	24.1	1.0
	CE1	A:HIS146	3.2	33.7	1.0
	CE1	A:HIS142	3.2	19.6	1.0
	HD2	A:HIS146	3.2	34.8	1.0
	HD2	A:HIS142	3.2	28.9	1.0
	HH	A:TYR157	3.2	38.2	1.0
	HE1	A:HIS146	3.4	40.5	1.0
	HE1	A:HIS142	3.4	23.5	1.0
	HA	A:VAL401	3.7	31.4	1.0
	OH	A:TYR157	3.9	31.9	1.0
	HA	A:GLU166	4.0	27.2	1.0
	HB2	A:SER169	4.1	25.8	1.0
	NE2	A:HIS231	4.1	28.6	1.0
	HB3	A:SER169	4.1	25.8	1.0
	CG	A:GLU166	4.2	29.2	1.0
	CG	A:HIS146	4.3	31.9	1.0
	CG	A:HIS142	4.3	21.8	1.0
	ND1	A:HIS146	4.3	39.9	1.0
	ND1	A:HIS142	4.3	21.0	1.0
	HE2	A:TYR157	4.3	59.8	1.0
	O	A:HOH592	4.3	35.0	1.0
	HG2	A:GLU166	4.4	35.1	1.0
	OE1	A:GLU143	4.4	21.7	1.0
	CB	A:SER169	4.5	21.5	1.0
	HD2	A:HIS231	4.5	37.0	1.0
	O	A:VAL401	4.5	37.8	1.0
	CA	A:VAL401	4.5	26.2	1.0
	OG	A:SER169	4.6	21.4	1.0
	CD2	A:HIS231	4.7	30.8	1.0
	C	A:VAL401	4.7	26.3	1.0
	HG3	A:GLU166	4.8	35.1	1.0
	CZ	A:TYR157	4.9	38.0	1.0
	HH22	A:ARG203	4.9	35.4	1.0
	HG23	A:VAL401	4.9	21.7	1.0
	CE2	A:TYR157	4.9	49.8	1.0
	CA	A:GLU166	4.9	22.6	1.0
	OE2	A:GLU143	4.9	30.4	1.0

Reference:

D.H.Juers, C.A.Farley, C.P.Saxby, R.A.Cotter, J.K.B.Cahn, R.C.Holton-Burke, K.Harrison, Z.Wu. The Impact of Cryosolution Thermal Contraction on Proteins and Protein Crystals: Volumes, Conformation and Order. Acta Crystallogr D Struct V. 74 922 2018BIOL.
ISSN: ISSN 2059-7983
PubMed: 30198901
DOI: 10.1107/S2059798318008793

Page generated: Mon Oct 28 19:23:24 2024

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