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Analysis of nucleic acid double helix geometry

Title		`CRYSTAL STRUCTURE OF A TERNARY SAP-1/SRF/C-FOS SRE DNA COMPL`
PDB code		`1K6O (PDB summary)`
NDB code		`PD0258 (NDB atlas)`
Duplex length		`23 base pairs`
Protein		`SAP-1/SRF/C-FOS SRE COMPLEX, Transcription Factor, DNA binding domain: Alpha-helix, DNA binding domain: Basic leucine zipper helix-turn-helix`

Only the nucleic acid double helix part of the structure is analysed here. Small ligands, proteins, and overhanging ends are not taken into account. Information on the complete structure is available at the Image Library Entry page and at the Sequence, Chains, Units page.

Strand 1

^5'

C₁₀₁

A₁₀₂

C₁₀₃

A₁₀₄

G₁₀₅

G₁₀₆

A₁₀₇

T₁₀₈

G₁₀₉

T₁₁₀

C₁₁₁

C₁₁₂

A₁₁₃

T₁₁₄

A₁₁₅

T₁₁₆

T₁₁₇

A₁₁₈

G₁₁₉

G₁₂₀

A₁₂₁

C₁₂₂

A₁₂₃

^3'

Strand 2

^3'

G₂₂₃

T₂₂₂

G₂₂₁

T₂₂₀

C₂₁₉

C₂₁₈

T₂₁₇

A₂₁₆

C₂₁₅

A₂₁₄

G₂₁₃

G₂₁₂

T₂₁₁

A₂₁₀

T₂₀₉

A₂₀₈

A₂₀₇

T₂₀₆

C₂₀₅

C₂₀₄

T₂₀₃

G₂₀₂

T₂₀₁

^5'

Side view 1	Top view

	3-dimensional interactive models (Help) RASMOL, CHIME, VRML 2.0, PDB
Side view 2

Figure 1 Three orthogonal views of the double helix (Help). Residues are colored according to the nucleotide type (Help: Color codes). The curvilinear helical axis (green) was calculated with CURVES. The double helix is oriented with respect to the principle axis of inertia of the curvilinear helical axis (see Help for further explanations). This drawing reveals immediately if there is any bending of the helical axis.

Analysis of helical axis bending

Inter base pair parameters

The six inter base pair parameters (rise, shift, slide, twist, roll, tilt) describe the translational and rotational displacement between neighbouring base pairs. See Help for further explanations.

Plot of inter base pair parameters with respect to global and local helical axes: PDF, GIF
(Global parameters from CURVES, local parameters from CURVES and FREEHELIX)

Table 1. Inter base pair parameters with respect to the global helical axis, calculated with CURVES.


Strand 1	Strand 2	rise_g	shift_g	slide_g	twist_g	roll_g	tilt_g
		/ Å	/ Å	/ Å

C₁₀₁	G₂₂₃
		3.2	0.1	1.0	44°	-4°	-3°
A₁₀₂	T₂₂₂
		3.1	-0.1	-0.6	32°	6°	-1°
C₁₀₃	G₂₂₁
		3.8	-0.7	-0.4	30°	20°	-5°
A₁₀₄	T₂₂₀
		3.4	0.3	0.5	30°	2°	3°
G₁₀₅	C₂₁₉
		3.7	-0.5	-0.5	29°	6°	0°
G₁₀₆	C₂₁₈
		2.9	-0.1	0.3	34°	6°	-4°
A₁₀₇	T₂₁₇
		3.1	0.5	-0.4	32°	3°	5°
T₁₀₈	A₂₁₆
		3.6	0.1	-0.1	44°	-1°	4°
G₁₀₉	C₂₁₅
		3.2	-0.7	-0.7	27°	-0°	-2°
T₁₁₀	A₂₁₄
		3.0	-0.3	-0.1	31°	9°	5°
C₁₁₁	G₂₁₃
		3.1	-0.0	-0.1	34°	0°	-2°
C₁₁₂	G₂₁₂
		3.5	1.7	0.7	42°	1°	9°
A₁₁₃	T₂₁₁
		3.0	-0.2	-0.4	27°	3°	-0°
T₁₁₄	A₂₁₀
		4.0	-0.3	0.9	43°	-8°	-1°
A₁₁₅	T₂₀₉
		3.3	-0.4	-0.6	34°	-6°	-2°
T₁₁₆	A₂₀₈
		3.1	0.2	-0.2	38°	-9°	5°
T₁₁₇	A₂₀₇
		3.4	0.9	0.8	39°	-3°	2°
A₁₁₈	T₂₀₆
		3.4	-2.0	0.4	39°	4°	-10°
G₁₁₉	C₂₀₅
		3.3	-0.3	-0.3	32°	7°	4°
G₁₂₀	C₂₀₄
		3.0	0.1	-0.1	36°	9°	-5°
A₁₂₁	T₂₀₃
		3.1	0.8	-0.6	24°	3°	-3°
C₁₂₂	G₂₀₂
		3.6	-0.3	-0.6	36°	6°	2°
A₁₂₃	T₂₀₁

Backbone parameters

Table 2. Selected torsional angles and sugar pucker phase angles describing the conformation of the sugar phosphate backbone. (See Help for further explanations.)


*gamma*	**epsilon-zeta**	pucker	*chi*	Strand 1	Strand 2	*chi*	pucker	**epsilon-zeta**	*gamma*

		C2'-endo	-158°	C₁₀₁	G₂₂₃	-108°	C2'-endo
51°	-106° (BI)							-24° (BI)	38°
		C2'-endo	-76°	A₁₀₂	T₂₂₂	-105°	C2'-endo
37°	-108° (BI)							-91° (BI)	39°
		C2'-endo	-90°	C₁₀₃	G₂₂₁	-117°	C1'-exo
-59°	-47° (BI)							-79° (BI)	43°
		C3'-exo	-116°	A₁₀₄	T₂₂₀	-109°	C2'-endo
48°	-85° (BI)							-29° (BI)	34°
		C2'-endo	-104°	G₁₀₅	C₂₁₉	-107°	C2'-endo
36°	-30° (BI)							-125° (BI)	-64°
		C2'-endo	-116°	G₁₀₆	C₂₁₈	-100°	C3'-exo
41°	-39° (BI)							-43° (BI)	45°
		C2'-endo	-112°	A₁₀₇	T₂₁₇	-113°	C1'-exo
43°	-86° (BI)							-62° (BI)	67°
		C2'-endo	-103°	T₁₀₈	A₂₁₆	-109°	C2'-endo
45°	-54° (BI)							-83° (BI)	174°
		C2'-endo	-119°	G₁₀₉	C₂₁₅	-152°	C2'-endo
38°	-81° (BI)							-90° (BI)	30°
		C2'-endo	-114°	T₁₁₀	A₂₁₄	-88°	C2'-endo
33°	-46° (BI)							-38° (BI)	41°
		C2'-endo	-96°	C₁₁₁	G₂₁₃	-95°	C2'-endo
42°	-67° (BI)							-52° (BI)	135°
		C2'-endo	-100°	C₁₁₂	G₂₁₂	-131°	C2'-endo
44°	-97° (BI)							141° (BII)	51°
		C2'-endo	-82°	A₁₁₃	T₂₁₁	-95°	C2'-endo
54°	-49° (BI)							-86° (BI)	53°
		C2'-endo	-106°	T₁₁₄	A₂₁₀	-113°	C2'-endo
56°	28° (BII)							-44° (BI)	-77°
		C2'-endo	-119°	A₁₁₅	T₂₀₉	-119°	C3'-exo
-69°	-42° (BI)							-52° (BI)	49°
		C3'-exo	-122°	T₁₁₆	A₂₀₈	-110°	C2'-endo
155°	-123° (BI)							-52° (BI)	75°
		C2'-endo	-136°	T₁₁₇	A₂₀₇	-126°	C2'-endo
57°	-62° (BI)							-14° (BI)	52°
		C2'-endo	-92°	A₁₁₈	T₂₀₆	-91°	C2'-endo
58°	63° (BII)							-104° (BI)	50°
		C2'-endo	-117°	G₁₁₉	C₂₀₅	-107°	C2'-endo
-65°	-49° (BI)							-99° (BI)	-58°
		C2'-endo	-113°	G₁₂₀	C₂₀₄	-97°	C3'-exo
37°	-118° (BI)							-48° (BI)	176°
		C2'-endo	-102°	A₁₂₁	T₂₀₃	-138°	C2'-endo
40°	-92° (BI)							-141° (BI)	41°
		C2'-endo	-105°	C₁₂₂	G₂₀₂	-108°	C2'-endo
-75°	-43° (BI)							-95° (BI)	61°
		C3'-exo	-129°	A₁₂₃	T₂₀₁	-145°	C2'-endo

Groove width

Plot of minor groove width:	PDF, GIF
Plot of major groove width:	PDF, GIF
(See Help for further explanations.)

Further information

Full output from CURVES (helical parameters with respect to global and local axes)

Full output from FREEHELIX (helical parameters with respect to local axis, angles between normal vectors)

Chirality of ribose and phosphate atoms
Check the naming of phosphate and ribose substituents. Recommended for phosphate oxygens and for ribose hydrogens in NMR structures.

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Perl script:	helixparameter.pl (15 Sep 2016)
Author:	Peter Slickers (`slickers@leibniz-fli.de`), IMB Jena, Germany