RNA STRAND molecule page

RNA STRAND v2.0 - The RNA secondary STRucture and statistical ANalysis Database

General features for molecule PDB_00786
(click to expand/contract all tables)

Format:

Molecule ID [?]:	PDB_00786
Molecule name [?]:	THE STRUCTURE OF THE TRANSITION STATE ANALOGUE "DCSN" BOUND TO THE LARGE RIBOSOMAL SUBUNIT OF HALOAR
Source [?]:	RCSB Protein Data Bank
Source ID [?]:	1VQL
Reference [?]:	T.M.SCHMEING,K.S.HUANG,D.E.KITCHEN,S.A.STROBEL, T.A.STEITZ. STRUCTURAL INSIGHTS INTO THE ROLES OF WATER AND THE 2' HYDROXYL OF THE P SITE TRNA IN THE PEPTIDYL TRANSFERASE REACTION.. MOL.CELL V. 20 437 2005 ASTM MOCEFL US ISSN 1097-2765
Type [?]:	23S Ribosomal RNA	[?] PS figure PDF figure Figure from original source
Organism [?]:	HALOARCULA MARISMORTUI
Validated by NMR or X-Ray [?]:	Yes
Method for secondary structure determination [?]:	X-RAY, RESOLUTION 2.30 ANGSTROMS; ran through RNAview
Number of molecules [?]:	3
Length [?]:	2882
Fragments used [?]:	No
Duplicated sequence [?]:	Molecules in the database with the same sequence: PDB_00779, PDB_00780, PDB_00782, PDB_00787, PDB_00790
Number of domains [?]:	1
Number of unpaired bases [?]:	942
Number of paired bases [?]:	1940

Click on any header below for additional features.

Stem features

Number of stems [?]:	139
Number of base pairs in stems [?]:	718
Maximum length of a stem [?]:	13
Average length of a stem [?]:	5.17
Minimum length of a stem [?]:	2
Maximum estimated free energy [?]:	0
Average estimated free energy [?]:	-7.45
Minimum estimated free energy [?]:	-25.2

Hairpin loop features

Number of hairpin loops [?]:	58
Maximum number of free bases in hairpin loops [?]:	9
Average number of free bases in hairpin loops [?]:	4.24
Minimum number of free bases in hairpin loop [?]:	1

Bulge loop features

Number of bulge loops [?]:	40
Maximum number of free bases in bulge loops [?]:	4
Average number of free bases in bulge loops [?]:	0.75
Minimum number of free bases in bulge loop [?]:	0

Internal loop features

Number of internal loops [?]:	27
Maximum number of free bases in internal loops:	6
Average number of free bases in internal loops:	2.26
Minimum number of free bases in internal loop:	1
Maximum internal loop absolute asymmetry:	3
Average internal loop absolute asymmetry:	1.11
Minimum internal loop absolute asymmetry:	0
Maximum internal loop relative asymmetry:	4
Average internal loop relative asymmetry:	1.74
Minimum internal loop relative asymmetry:	1

Multi-loop features

Number of multi-loops [?]:	14
Maximum number of free bases in multi-loops:	15
Average number of free bases in multi-loops:	3
Minimum number of free bases in multi-loop:	0
Maximum multi-loop absolute asymmetry:	15
Average multi-loop absolute asymmetry:	2.96
Minimum multi-loop absolute asymmetry:	0
Maximum multi-loop relative asymmetry:	15
Average multi-loop relative asymmetry:	1.08
Minimum multi-loop relative asymmetry:	0
Maximum number of branches in multi-loops:	5
Average number of branches in multi-loops:	3.86
Minimum number of branches in multi-loops:	3

Non-canonical base pairs features

Total number of non-canonical base pairs [?]:	134
Total number of AA non-canonical base pairs:	18
Total number of AC non-canonical base pairs:	16
Total number of AG non-canonical base pairs:	68
Total number of CC non-canonical base pairs:	13
Total number of CU non-canonical base pairs:	9
Total number of GG non-canonical base pairs:	1
Total number of UU non-canonical base pairs:	9

Pseudoknot features

Number of pseudoknots [?]:	6
Number of bands:	25
Number of base pairs in bands:	252
Maximum band length:	38
Average band length:	10.08
Minimum band length:	2
Maximum number of bands per pseudoknot:	12
Average number of bands per pseudoknot:	4.17
Minimum number of bands per pseudoknot:	2
Maximum number of un-bands:	11
Average number of un-bands:	2
Minimum number of un-bands:	0
Maximum number of in-bands:	22
Average number of in-bands:	4.17
Minimum number of in-bands:	0
Maximum number of unpaired bases:	260
Average number of unpaired bases:	57.67
Minimum number of unpaired bases:	8
Several ways to remove minimum number of base pairs, per molecule:	No
Minimum number of base pairs to remove, per molecule:	29
Maximum number of base pairs to remove, per pseudoknot:	12
Average number of base pairs to remove, per pseudoknot:	4.83
Minimum number of base pairs to remove, per pseudoknot:	2
Minimum number of bands to remove, per molecule:	10
Maximum number of bands to remove, per pseudoknot:	4
Average number of bands to remove, per pseudoknot:	1.67
Minimum number of bands to remove, per pseudoknot:	1