BMRB Entry 51705

Title:
Histone H3 Core Domain in Chromatin with Different DNA Linker Lengths Studied by 1H-Detected Solid-State NMR Spectrsocopy
Deposition date:
2022-11-23
Original release date:
2023-03-07
Authors:
Smrt, Sean; Gonzalez Salguero, Nicole; Thomas, Justin; Zandian, Mohamad; Poirier, Michael; Jaroniec, Christopher
Citation:

Citation: Smrt, Sean; Gonzalez Salguero, Nicole; Thomas, Justin; Zandian, Mohamad; Poirier, Michael; Jaroniec, Christopher. "Histone H3 core domain in chromatin with different DNA linker lengths studied by 1H-Detected solid-state NMR spectroscopy"  Front. Mol. Biosci. 9, 1106588-1106588 (2022).
PubMed: 36660422

Assembly members:

Assembly members:
entity_1, polymer, 136 residues, Formula weight is not available
entity_2, polymer, 102 residues, Formula weight is not available
entity_3, polymer, 129 residues, Formula weight is not available
entity_4, polymer, 122 residues, Formula weight is not available
entity_5, polymer, 5510 residues, Formula weight is not available

Natural source:

Natural source:   Common Name: African clawed frog   Taxonomy ID: 8355   Superkingdom: Eukaryota   Kingdom: Metazoa   Genus/species: Xenopus laevis

Experimental source:

Experimental source:   Production method: recombinant technology   Host organism: Escherichia coli   Vector: N/A

Entity Sequences (FASTA):

Entity Sequences (FASTA):
entity_1: MARTKQTARKSTGGKAPRKQ LATKAARKSAPATGGVKKPH RYRPGTVALREIRRYQKSTE LLIRKLPFQRLVREIAQDFK TDLRFQSSAVMALQEASEAY LVALFEDTNLCAIHAKRVTI MPKDIQLARRIRGERA
entity_2: SGRGKGGKGLGKGGAKRHRK VLRDNIQGITKPAIRRLARR GGVKRISGLIYEETRGVLKV FLENVIRDAVTYTEHAKRKT VTAMDVVYALKRQGRTLYGF GG
entity_3: SGRGKQGGKTRAKAKTRSSR AGLQFPVGRVHRLLRKGNYA ERVGAGAPVYLAAVLEYLTA EILELAGNAARDNKKTRIIP RHLQLAVRNDEELNKLLGRV TIAQGGVLPNIQSVLLPKKT ESSKSAKSK
entity_4: AKSAPAPKKGSKKAVTKTQK KDGKKRRKTRKESYAIYVYK VLKQVHPDTGISSKAMSIMN SFVNDVFERIAGEASRLAHY NKRSTITSREIQTAVRLLLP GELAKHAVSEGTKAVTKYTS AK
entity_5: TCGCGCGTTTCGGTGATGAC GGTGAAAACCTCTGACACAT GCAGCTCCCGGAGACGGTCA CAGCTTGTCTGTAAGCGGAT GCCGGGAGCAGACAAGCCCG TCAGGGCGCGTCAGCGGGTG TTGGCGGGTGTCGGGGCTGG CTTAACTATGCGGCATCAGA GCAGATTGTACTGAGAGTGC ACCATATGCGGTGTGAAATA CCGCACAGATGCGTAAGGAG AAAATACCGCATCAGGCGCC ATTCGCCATTCAGGCTGCGC AACTGTTGGGAAGGGCGATC GGTGCGGGCCTCTTCGCTAT TACGCCAGCTGGCGAAAGGG GGATGTGCTGCAAGGCGATT AAGTTGGGTAACGCCAGGGT TTTCCCAGTCACGACGTTGT AAAACGACGGCCAGTGCTAA GGAATTCAGAGCTCCTCGGG CATTCTCCCGCCCTGGAGAA TCTTGGTGCCGAAGCCGCTC AATTGGTCGTAGCAAGCTCT ACCACCGCTTAAACGCACGT AAGGGCTGTCCCCCGCGTTT TAACCGCCAAGAGGATTACT CCCCAGTCTCCAGGCACGCG TCAGATATATACATCCTGTG CATGTATTGAACTCGGGCAT TCTCCCGCCCTGGAGAATCT TGGTGCCGAAGCCGCTCAAT TGGTCGTAGCAAGCTCTACC ACCGCTTAAACGCACGTAAG GGCTGTCCCCCGCGTTTTAA CCGCCAAGAGGATTACTCCC CAGTCTCCAGGCACGCGTCA GATATATACATCCTGTGCAT GTATTGAACTCGGGCATTCT CCCGCCCTGGAGAATCTTGG TGCCGAAGCCGCTCAATTGG TCGTAGCAAGCTCTACCACC GCTTAAACGCACGTAAGGGC TGTCCCCCGCGTTTTAACCG CCAAGAGGATTACTCCCCAG TCTCCAGGCACGCGTCAGAT ATATACATCCTGTGCATGTA TTGAACTCGGGCATTCTCCC GCCCTGGAGAATCTTGGTGC CGAAGCCGCTCAATTGGTCG TAGCAAGCTCTACCACCGCT TAAACGCACGTAAGGGCTGT CCCCCGCGTTTTAACCGCCA AGAGGATTACTCCCCAGTCT CCAGGCACGCGTCAGATATA TACATCCTGTGCATGTATTG AACTCGGGCATTCTCCCGCC CTGGAGAATCTTGGTGCCGA AGCCGCTCAATTGGTCGTAG CAAGCTCTACCACCGCTTAA ACGCACGTAAGGGCTGTCCC CCGCGTTTTAACCGCCAAGA GGATTACTCCCCAGTCTCCA GGCACGCGTCAGATATATAC ATCCTGTGCATGTATTGAAC TCGGGCATTCTCCCGCCCTG GAGAATCTTGGTGCCGAAGC CGCTCAATTGGTCGTAGCAA GCTCTACCACCGCTTAAACG CACGTAAGGGCTGTCCCCCG CGTTTTAACCGCCAAGAGGA TTACTCCCCAGTCTCCAGGC ACGCGTCAGATATATACATC CTGTGCATGTATTGAACTCG GGCATTCTCCCGCCCTGGAG AATCTTGGTGCCGAAGCCGC TCAATTGGTCGTAGCAAGCT CTACCACCGCTTAAACGCAC GTAAGGGCTGTCCCCCGCGT TTTAACCGCCAAGAGGATTA CTCCCCAGTCTCCAGGCACG CGTCAGATATATACATCCTG TGCATGTATTGAACTCGGGA GATCTGTCGACCTGCAGAAG CTTGGTGCCGGGGCCGCTCA ATTGGTCGTAGCAAGCTCTG GATCCGCTTGATCGAACGTA CGCGCTGTCCCCCGCGTTTT AAACGCCAAGGGGATTACTC CCTAGTCTCCAGGCACGTGT CAGATATATACATCCTGTGG TACCTCTAGACTCGAGGATA TCGGGCCCCTGGAGAATCTT GGTGCCGAAGCCGCTCAATT GGTCGTAGCAAGCTCTACCA CCGCTTAAACGCACGTAAGG GCTGTCCCCCGCGTTTTAAC CGCCAAGAGGATTACTCCCC AGTCTCCAGGCACGCGTCAG ATATATACATCCTGTGCATG TGAGCTCCTCGGGCATTCTC CCGCCCTGGAGAATCTTGGT GCCGAAGCCGCTCAATTGGT CGTAGCAAGCTCTACCACCG CTTAAACGCACGTAAGGGCT GTCCCCCGCGTTTTAACCGC CAAGAGGATTACTCCCCAGT CTCCAGGCACGCGTCAGATA TATACATCCTGTGCATGTAT TGAACTCGGGCATTCTCCCG CCCTGGAGAATCTTGGTGCC GAAGCCGCTCAATTGGTCGT AGCAAGCTCTACCACCGCTT AAACGCACGTAAGGGCTGTC CCCCGCGTTTTAACCGCCAA GAGGATTACTCCCCAGTCTC CAGGCACGCGTCAGATATAT ACATCCTGTGCATGTATTGA ACTCGGGCATTCTCCCGCCC TGGAGAATCTTGGTGCCGAA GCCGCTCAATTGGTCGTAGC AAGCTCTACCACCGCTTAAA CGCACGTAAGGGCTGTCCCC CGCGTTTTAACCGCCAAGAG GATTACTCCCCAGTCTCCAG GCACGCGTCAGATATATACA TCCTGTGCATGTATTGAACT CGGGCATTCTCCCGCCCTGG AGAATCTTGGTGCCGAAGCC GCTCAATTGGTCGTAGCAAG CTCTACCACCGCTTAAACGC ACGTAAGGGCTGTCCCCCGC GTTTTAACCGCCAAGAGGAT TACTCCCCAGTCTCCAGGCA CGCGTCAGATATATACATCC TGTGCATGTATTGAACTCGG GCATTCTCCCGCCCTGGAGA ATCTTGGTGCCGAAGCCGCT CAATTGGTCGTAGCAAGCTC TACCACCGCTTAAACGCACG TAAGGGCTGTCCCCCGCGTT TTAACCGCCAAGAGGATTAC TCCCCAGTCTCCAGGCACGC GTCAGATATATACATCCTGT GCATGTATTGAACTCGGGCA TTCTCCCGCCCTGGAGAATC TTGGTGCCGAAGCCGCTCAA TTGGTCGTAGCAAGCTCTAC CACCGCTTAAACGCACGTAA GGGCTGTCCCCCGCGTTTTA ACCGCCAAGAGGATTACTCC CCAGTCTCCAGGCACGCGTC AGATATATACATCCTGTGCA TGTATTGAACTCGGGCATTC TCCCGCCCTGGAGAATCTTG GTGCCGAAGCCGCTCAATTG GTCGTAGCAAGCTCTACCAC CGCTTAAACGCACGTAAGGG CTGTCCCCCGCGTTTTAACC GCCAAGAGGATTACTCCCCA GTCTCCAGGCACGCGTCAGA TATATACATCCTGTGCATGT ATTGAACTCGGGAGATCTGC ATGCCTCAGGAAGCTTGGCG TAATCATGGTCATAGCTGTT TCCTGTGTGAAATTGTTATC CGCTCACAATTCCACACAAC ATACGAGCCGGAAGCATAAA GTGTAAAGCCTGGGGTGCCT AATGAGTGAGCTAACTCACA TTAATTGCGTTGCGCTCACT GCCCGCTTTCCAGTCGGGAA ACCTGTCGTGCCAGCTGCAT TAATGAATCGGCCAACGCGC GGGGAGAGGCGGTTTGCGTA TTGGGCGCTCTTCCGCTTCC TCGCTCACTGACTCGCTGCG CTCGGTCGTTCGGCTGCGGC GAGCGGTATCAGCTCACTCA AAGGCGGTAATACGGTTATC CACAGAATCAGGGGATAACG CAGGAAAGAACATGTGAGCA AAAGGCCAGCAAAAGGCCAG GAACCGTAAAAAGGCCGCGT TGCTGGCGTTTTTCCATAGG CTCCGCCCCCCTGACGAGCA TCACAAAAATCGACGCTCAA GTCAGAGGTGGCGAAACCCG ACAGGACTATAAAGATACCA GGCGTTTCCCCCTGGAAGCT CCCTCGTGCGCTCTCCTGTT CCGACCCTGCCGCTTACCGG ATACCTGTCCGCCTTTCTCC CTTCGGGAAGCGTGGCGCTT TCTCATAGCTCACGCTGTAG GTATCTCAGTTCGGTGTAGG TCGTTCGCTCCAAGCTGGGC TGTGTGCACGAACCCCCCGT TCAGCCCGACCGCTGCGCCT TATCCGGTAACTATCGTCTT GAGTCCAACCCGGTAAGACA CGACTTATCGCCACTGGCAG CAGCCACTGGTAACAGGATT AGCAGAGCGAGGTATGTAGG CGGTGCTACAGAGTTCTTGA AGTGGTGGCCTAACTACGGC TACACTAGAAGAACAGTATT TGGTATCTGCGCTCTGCTGA AGCCAGTTACCTTCGGAAAA AGAGTTGGTAGCTCTTGATC CGGCAAACAAACCACCGCTG GTAGCGGTGGTTTTTTTGTT TGCAAGCAGCAGATTACGCG CAGAAAAAAAGGATCTCAAG AAGATCCTTTGATCTTTTCT ACGGGGTCTGACGCTCAGTG GAACGAAAACTCACGTTAAG GGATTTTGGTCATGAGATTA TCAAAAAGGATCTTCACCTA GATCCTTTTAAATTAAAAAT GAAGTTTTAAATCAATCTAA AGTATATATGAGTAAACTTG GTCTGACAGTTACCAATGCT TAATCAGTGAGGCACCTATC TCAGCGATCTGTCTATTTCG TTCATCCATAGTTGCCTGAC TCCCCGTCGTGTAGATAACT ACGATACGGGAGGGCTTACC ATCTGGCCCCAGTGCTGCAA TGATACCGCGAGACCCACGC TCACCGGCTCCAGATTTATC AGCAATAAACCAGCCAGCCG GAAGGGCCGAGCGCAGAAGT GGTCCTGCAACTTTATCCGC CTCCATCCAGTCTATTAATT GTTGCCGGGAAGCTAGAGTA AGTAGTTCGCCAGTTAATAG TTTGCGCAACGTTGTTGCCA TTGCTACAGGCATCGTGGTG TCACGCTCGTCGTTTGGTAT GGCTTCATTCAGCTCCGGTT CCCAACGATCAAGGCGAGTT ACATGATCCCCCATGTTGTG CAAAAAAGCGGTTAGCTCCT TCGGTCCTCCGATCGTTGTC AGAAGTAAGTTGGCCGCAGT GTTATCACTCATGGTTATGG CAGCACTGCATAATTCTCTT ACTGTCATGCCATCCGTAAG ATGCTTTTCTGTGACTGGTG AGTACTCAACCAAGTCATTC TGAGAATAGTGTATGCGGCG ACCGAGTTGCTCTTGCCCGG CGTCAATACGGGATAATACC GCGCCACATAGCAGAACTTT AAAAGTGCTCATCATTGGAA AACGTTCTTCGGGGCGAAAA CTCTCAAGGATCTTACCGCT GTTGAGATCCAGTTCGATGT AACCCACTCGTGCACCCAAC TGATCTTCAGCATCTTTTAC TTTCACCAGCGTTTCTGGGT GAGCAAAAACAGGAAGGCAA AATGCCGCAAAAAAGGGAAT AAGGGCGACACGGAAATGTT GAATACTCATACTCTTCCTT TTTCAATATTATTGAAGCAT TTATCAGGGTTATTGTCTCA TGAGCGGATACATATTTGAA TGTATTTAGAAAAATAAACA AATAGGGGTTCCGCGCACAT TTCCCCGAAAAGTGCCACCT GACGTCTAAGAAACCATTAT TATCATGACATTAACCTATA AAAATAGGCGTATCACGAGG CCCTTTCGTC

Data sets:
Data typeCount
13C chemical shifts142
15N chemical shifts81
1H chemical shifts80

Additional metadata:

  • Assembly
  • Samples and Experiments
  • Software
  • Spectrometers
  • Hide all

Assembly:

Entity Assembly IDEntity NameEntity ID
1Histone H31
2Histone H42
3Histone H2A3
4Histone H2B4
5DNA5

Entities:

Entity 1, Histone H3 136 residues - Formula weight is not available

1   METALAARGTHRLYSGLNTHRALAARGLYS
2   SERTHRGLYGLYLYSALAPROARGLYSGLN
3   LEUALATHRLYSALAALAARGLYSSERALA
4   PROALATHRGLYGLYVALLYSLYSPROHIS
5   ARGTYRARGPROGLYTHRVALALALEUARG
6   GLUILEARGARGTYRGLNLYSSERTHRGLU
7   LEULEUILEARGLYSLEUPROPHEGLNARG
8   LEUVALARGGLUILEALAGLNASPPHELYS
9   THRASPLEUARGPHEGLNSERSERALAVAL
10   METALALEUGLNGLUALASERGLUALATYR
11   LEUVALALALEUPHEGLUASPTHRASNLEU
12   CYSALAILEHISALALYSARGVALTHRILE
13   METPROLYSASPILEGLNLEUALAARGARG
14   ILEARGGLYGLUARGALA

Entity 2, Histone H4 102 residues - Formula weight is not available

1   SERGLYARGGLYLYSGLYGLYLYSGLYLEU
2   GLYLYSGLYGLYALALYSARGHISARGLYS
3   VALLEUARGASPASNILEGLNGLYILETHR
4   LYSPROALAILEARGARGLEUALAARGARG
5   GLYGLYVALLYSARGILESERGLYLEUILE
6   TYRGLUGLUTHRARGGLYVALLEULYSVAL
7   PHELEUGLUASNVALILEARGASPALAVAL
8   THRTYRTHRGLUHISALALYSARGLYSTHR
9   VALTHRALAMETASPVALVALTYRALALEU
10   LYSARGGLNGLYARGTHRLEUTYRGLYPHE
11   GLYGLY

Entity 3, Histone H2A 129 residues - Formula weight is not available

1   SERGLYARGGLYLYSGLNGLYGLYLYSTHR
2   ARGALALYSALALYSTHRARGSERSERARG
3   ALAGLYLEUGLNPHEPROVALGLYARGVAL
4   HISARGLEULEUARGLYSGLYASNTYRALA
5   GLUARGVALGLYALAGLYALAPROVALTYR
6   LEUALAALAVALLEUGLUTYRLEUTHRALA
7   GLUILELEUGLULEUALAGLYASNALAALA
8   ARGASPASNLYSLYSTHRARGILEILEPRO
9   ARGHISLEUGLNLEUALAVALARGASNASP
10   GLUGLULEUASNLYSLEULEUGLYARGVAL
11   THRILEALAGLNGLYGLYVALLEUPROASN
12   ILEGLNSERVALLEULEUPROLYSLYSTHR
13   GLUSERSERLYSSERALALYSSERLYS

Entity 4, Histone H2B 122 residues - Formula weight is not available

1   ALALYSSERALAPROALAPROLYSLYSGLY
2   SERLYSLYSALAVALTHRLYSTHRGLNLYS
3   LYSASPGLYLYSLYSARGARGLYSTHRARG
4   LYSGLUSERTYRALAILETYRVALTYRLYS
5   VALLEULYSGLNVALHISPROASPTHRGLY
6   ILESERSERLYSALAMETSERILEMETASN
7   SERPHEVALASNASPVALPHEGLUARGILE
8   ALAGLYGLUALASERARGLEUALAHISTYR
9   ASNLYSARGSERTHRILETHRSERARGGLU
10   ILEGLNTHRALAVALARGLEULEULEUPRO
11   GLYGLULEUALALYSHISALAVALSERGLU
12   GLYTHRLYSALAVALTHRLYSTYRTHRSER
13   ALALYS

Entity 5, DNA 5510 residues - Formula weight is not available

1   DTDCDGDCDGDCDGDTDTDT
2   DCDGDGDTDGDADTDGDADC
3   DGDGDTDGDADADADADCDC
4   DTDCDTDGDADCDADCDADT
5   DGDCDADGDCDTDCDCDCDG
6   DGDADGDADCDGDGDTDCDA
7   DCDADGDCDTDTDGDTDCDT
8   DGDTDADADGDCDGDGDADT
9   DGDCDCDGDGDGDADGDCDA
10   DGDADCDADADGDCDCDCDG
11   DTDCDADGDGDGDCDGDCDG
12   DTDCDADGDCDGDGDGDTDG
13   DTDTDGDGDCDGDGDGDTDG
14   DTDCDGDGDGDGDCDTDGDG
15   DCDTDTDADADCDTDADTDG
16   DCDGDGDCDADTDCDADGDA
17   DGDCDADGDADTDTDGDTDA
18   DCDTDGDADGDADGDTDGDC
19   DADCDCDADTDADTDGDCDG
20   DGDTDGDTDGDADADADTDA
21   DCDCDGDCDADCDADGDADT
22   DGDCDGDTDADADGDGDADG
23   DADADADADTDADCDCDGDC
24   DADTDCDADGDGDCDGDCDC
25   DADTDTDCDGDCDCDADTDT
26   DCDADGDGDCDTDGDCDGDC
27   DADADCDTDGDTDTDGDGDG
28   DADADGDGDGDCDGDADTDC
29   DGDGDTDGDCDGDGDGDCDC
30   DTDCDTDTDCDGDCDTDADT
31   DTDADCDGDCDCDADGDCDT
32   DGDGDCDGDADADADGDGDG
33   DGDGDADTDGDTDGDCDTDG
34   DCDADADGDGDCDGDADTDT
35   DADADGDTDTDGDGDGDTDA
36   DADCDGDCDCDADGDGDGDT
37   DTDTDTDCDCDCDADGDTDC
38   DADCDGDADCDGDTDTDGDT
39   DADADADADCDGDADCDGDG
40   DCDCDADGDTDGDCDTDADA
41   DGDGDADADTDTDCDADGDA
42   DGDCDTDCDCDTDCDGDGDG
43   DCDADTDTDCDTDCDCDCDG
44   DCDCDCDTDGDGDADGDADA
45   DTDCDTDTDGDGDTDGDCDC
46   DGDADADGDCDCDGDCDTDC
47   DADADTDTDGDGDTDCDGDT
48   DADGDCDADADGDCDTDCDT
49   DADCDCDADCDCDGDCDTDT
50   DADADADCDGDCDADCDGDT
51   DADADGDGDGDCDTDGDTDC
52   DCDCDCDCDGDCDGDTDTDT
53   DTDADADCDCDGDCDCDADA
54   DGDADGDGDADTDTDADCDT
55   DCDCDCDCDADGDTDCDTDC
56   DCDADGDGDCDADCDGDCDG
57   DTDCDADGDADTDADTDADT
58   DADCDADTDCDCDTDGDTDG
59   DCDADTDGDTDADTDTDGDA
60   DADCDTDCDGDGDGDCDADT
61   DTDCDTDCDCDCDGDCDCDC
62   DTDGDGDADGDADADTDCDT
63   DTDGDGDTDGDCDCDGDADA
64   DGDCDCDGDCDTDCDADADT
65   DTDGDGDTDCDGDTDADGDC
66   DADADGDCDTDCDTDADCDC
67   DADCDCDGDCDTDTDADADA
68   DCDGDCDADCDGDTDADADG
69   DGDGDCDTDGDTDCDCDCDC
70   DCDGDCDGDTDTDTDTDADA
71   DCDCDGDCDCDADADGDADG
72   DGDADTDTDADCDTDCDCDC
73   DCDADGDTDCDTDCDCDADG
74   DGDCDADCDGDCDGDTDCDA
75   DGDADTDADTDADTDADCDA
76   DTDCDCDTDGDTDGDCDADT
77   DGDTDADTDTDGDADADCDT
78   DCDGDGDGDCDADTDTDCDT
79   DCDCDCDGDCDCDCDTDGDG
80   DADGDADADTDCDTDTDGDG
81   DTDGDCDCDGDADADGDCDC
82   DGDCDTDCDADADTDTDGDG
83   DTDCDGDTDADGDCDADADG
84   DCDTDCDTDADCDCDADCDC
85   DGDCDTDTDADADADCDGDC
86   DADCDGDTDADADGDGDGDC
87   DTDGDTDCDCDCDCDCDGDC
88   DGDTDTDTDTDADADCDCDG
89   DCDCDADADGDADGDGDADT
90   DTDADCDTDCDCDCDCDADG
91   DTDCDTDCDCDADGDGDCDA
92   DCDGDCDGDTDCDADGDADT
93   DADTDADTDADCDADTDCDC
94   DTDGDTDGDCDADTDGDTDA
95   DTDTDGDADADCDTDCDGDG
96   DGDCDADTDTDCDTDCDCDC
97   DGDCDCDCDTDGDGDADGDA
98   DADTDCDTDTDGDGDTDGDC
99   DCDGDADADGDCDCDGDCDT
100   DCDADADTDTDGDGDTDCDG
101   DTDADGDCDADADGDCDTDC
102   DTDADCDCDADCDCDGDCDT
103   DTDADADADCDGDCDADCDG
104   DTDADADGDGDGDCDTDGDT
105   DCDCDCDCDCDGDCDGDTDT
106   DTDTDADADCDCDGDCDCDA
107   DADGDADGDGDADTDTDADC
108   DTDCDCDCDCDADGDTDCDT
109   DCDCDADGDGDCDADCDGDC
110   DGDTDCDADGDADTDADTDA
111   DTDADCDADTDCDCDTDGDT
112   DGDCDADTDGDTDADTDTDG
113   DADADCDTDCDGDGDGDCDA
114   DTDTDCDTDCDCDCDGDCDC
115   DCDTDGDGDADGDADADTDC
116   DTDTDGDGDTDGDCDCDGDA
117   DADGDCDCDGDCDTDCDADA
118   DTDTDGDGDTDCDGDTDADG
119   DCDADADGDCDTDCDTDADC
120   DCDADCDCDGDCDTDTDADA
121   DADCDGDCDADCDGDTDADA
122   DGDGDGDCDTDGDTDCDCDC
123   DCDCDGDCDGDTDTDTDTDA
124   DADCDCDGDCDCDADADGDA
125   DGDGDADTDTDADCDTDCDC
126   DCDCDADGDTDCDTDCDCDA
127   DGDGDCDADCDGDCDGDTDC
128   DADGDADTDADTDADTDADC
129   DADTDCDCDTDGDTDGDCDA
130   DTDGDTDADTDTDGDADADC
131   DTDCDGDGDGDCDADTDTDC
132   DTDCDCDCDGDCDCDCDTDG
133   DGDADGDADADTDCDTDTDG
134   DGDTDGDCDCDGDADADGDC
135   DCDGDCDTDCDADADTDTDG
136   DGDTDCDGDTDADGDCDADA
137   DGDCDTDCDTDADCDCDADC
138   DCDGDCDTDTDADADADCDG
139   DCDADCDGDTDADADGDGDG
140   DCDTDGDTDCDCDCDCDCDG
141   DCDGDTDTDTDTDADADCDC
142   DGDCDCDADADGDADGDGDA
143   DTDTDADCDTDCDCDCDCDA
144   DGDTDCDTDCDCDADGDGDC
145   DADCDGDCDGDTDCDADGDA
146   DTDADTDADTDADCDADTDC
147   DCDTDGDTDGDCDADTDGDT
148   DADTDTDGDADADCDTDCDG
149   DGDGDCDADTDTDCDTDCDC
150   DCDGDCDCDCDTDGDGDADG
151   DADADTDCDTDTDGDGDTDG
152   DCDCDGDADADGDCDCDGDC
153   DTDCDADADTDTDGDGDTDC
154   DGDTDADGDCDADADGDCDT
155   DCDTDADCDCDADCDCDGDC
156   DTDTDADADADCDGDCDADC
157   DGDTDADADGDGDGDCDTDG
158   DTDCDCDCDCDCDGDCDGDT
159   DTDTDTDADADCDCDGDCDC
160   DADADGDADGDGDADTDTDA
161   DCDTDCDCDCDCDADGDTDC
162   DTDCDCDADGDGDCDADCDG
163   DCDGDTDCDADGDADTDADT
164   DADTDADCDADTDCDCDTDG
165   DTDGDCDADTDGDTDADTDT
166   DGDADADCDTDCDGDGDGDA
167   DGDADTDCDTDGDTDCDGDA
168   DCDCDTDGDCDADGDADADG
169   DCDTDTDGDGDTDGDCDCDG
170   DGDGDGDCDCDGDCDTDCDA
171   DADTDTDGDGDTDCDGDTDA
172   DGDCDADADGDCDTDCDTDG
173   DGDADTDCDCDGDCDTDTDG
174   DADTDCDGDADADCDGDTDA
175   DCDGDCDGDCDTDGDTDCDC
176   DCDCDCDGDCDGDTDTDTDT
177   DADADADCDGDCDCDADADG
178   DGDGDGDADTDTDADCDTDC
179   DCDCDTDADGDTDCDTDCDC
180   DADGDGDCDADCDGDTDGDT
181   DCDADGDADTDADTDADTDA
182   DCDADTDCDCDTDGDTDGDG
183   DTDADCDCDTDCDTDADGDA
184   DCDTDCDGDADGDGDADTDA
185   DTDCDGDGDGDCDCDCDCDT
186   DGDGDADGDADADTDCDTDT
187   DGDGDTDGDCDCDGDADADG
188   DCDCDGDCDTDCDADADTDT
189   DGDGDTDCDGDTDADGDCDA
190   DADGDCDTDCDTDADCDCDA
191   DCDCDGDCDTDTDADADADC
192   DGDCDADCDGDTDADADGDG
193   DGDCDTDGDTDCDCDCDCDC
194   DGDCDGDTDTDTDTDADADC
195   DCDGDCDCDADADGDADGDG
196   DADTDTDADCDTDCDCDCDC
197   DADGDTDCDTDCDCDADGDG
198   DCDADCDGDCDGDTDCDADG
199   DADTDADTDADTDADCDADT
200   DCDCDTDGDTDGDCDADTDG
201   DTDGDADGDCDTDCDCDTDC
202   DGDGDGDCDADTDTDCDTDC
203   DCDCDGDCDCDCDTDGDGDA
204   DGDADADTDCDTDTDGDGDT
205   DGDCDCDGDADADGDCDCDG
206   DCDTDCDADADTDTDGDGDT
207   DCDGDTDADGDCDADADGDC
208   DTDCDTDADCDCDADCDCDG
209   DCDTDTDADADADCDGDCDA
210   DCDGDTDADADGDGDGDCDT
211   DGDTDCDCDCDCDCDGDCDG
212   DTDTDTDTDADADCDCDGDC
213   DCDADADGDADGDGDADTDT
214   DADCDTDCDCDCDCDADGDT
215   DCDTDCDCDADGDGDCDADC
216   DGDCDGDTDCDADGDADTDA
217   DTDADTDADCDADTDCDCDT
218   DGDTDGDCDADTDGDTDADT
219   DTDGDADADCDTDCDGDGDG
220   DCDADTDTDCDTDCDCDCDG
221   DCDCDCDTDGDGDADGDADA
222   DTDCDTDTDGDGDTDGDCDC
223   DGDADADGDCDCDGDCDTDC
224   DADADTDTDGDGDTDCDGDT
225   DADGDCDADADGDCDTDCDT
226   DADCDCDADCDCDGDCDTDT
227   DADADADCDGDCDADCDGDT
228   DADADGDGDGDCDTDGDTDC
229   DCDCDCDCDGDCDGDTDTDT
230   DTDADADCDCDGDCDCDADA
231   DGDADGDGDADTDTDADCDT
232   DCDCDCDCDADGDTDCDTDC
233   DCDADGDGDCDADCDGDCDG
234   DTDCDADGDADTDADTDADT
235   DADCDADTDCDCDTDGDTDG
236   DCDADTDGDTDADTDTDGDA
237   DADCDTDCDGDGDGDCDADT
238   DTDCDTDCDCDCDGDCDCDC
239   DTDGDGDADGDADADTDCDT
240   DTDGDGDTDGDCDCDGDADA
241   DGDCDCDGDCDTDCDADADT
242   DTDGDGDTDCDGDTDADGDC
243   DADADGDCDTDCDTDADCDC
244   DADCDCDGDCDTDTDADADA
245   DCDGDCDADCDGDTDADADG
246   DGDGDCDTDGDTDCDCDCDC
247   DCDGDCDGDTDTDTDTDADA
248   DCDCDGDCDCDADADGDADG
249   DGDADTDTDADCDTDCDCDC
250   DCDADGDTDCDTDCDCDADG
251   DGDCDADCDGDCDGDTDCDA
252   DGDADTDADTDADTDADCDA
253   DTDCDCDTDGDTDGDCDADT
254   DGDTDADTDTDGDADADCDT
255   DCDGDGDGDCDADTDTDCDT
256   DCDCDCDGDCDCDCDTDGDG
257   DADGDADADTDCDTDTDGDG
258   DTDGDCDCDGDADADGDCDC
259   DGDCDTDCDADADTDTDGDG
260   DTDCDGDTDADGDCDADADG
261   DCDTDCDTDADCDCDADCDC
262   DGDCDTDTDADADADCDGDC
263   DADCDGDTDADADGDGDGDC
264   DTDGDTDCDCDCDCDCDGDC
265   DGDTDTDTDTDADADCDCDG
266   DCDCDADADGDADGDGDADT
267   DTDADCDTDCDCDCDCDADG
268   DTDCDTDCDCDADGDGDCDA
269   DCDGDCDGDTDCDADGDADT
270   DADTDADTDADCDADTDCDC
271   DTDGDTDGDCDADTDGDTDA
272   DTDTDGDADADCDTDCDGDG
273   DGDCDADTDTDCDTDCDCDC
274   DGDCDCDCDTDGDGDADGDA
275   DADTDCDTDTDGDGDTDGDC
276   DCDGDADADGDCDCDGDCDT
277   DCDADADTDTDGDGDTDCDG
278   DTDADGDCDADADGDCDTDC
279   DTDADCDCDADCDCDGDCDT
280   DTDADADADCDGDCDADCDG
281   DTDADADGDGDGDCDTDGDT
282   DCDCDCDCDCDGDCDGDTDT
283   DTDTDADADCDCDGDCDCDA
284   DADGDADGDGDADTDTDADC
285   DTDCDCDCDCDADGDTDCDT
286   DCDCDADGDGDCDADCDGDC
287   DGDTDCDADGDADTDADTDA
288   DTDADCDADTDCDCDTDGDT
289   DGDCDADTDGDTDADTDTDG
290   DADADCDTDCDGDGDGDCDA
291   DTDTDCDTDCDCDCDGDCDC
292   DCDTDGDGDADGDADADTDC
293   DTDTDGDGDTDGDCDCDGDA
294   DADGDCDCDGDCDTDCDADA
295   DTDTDGDGDTDCDGDTDADG
296   DCDADADGDCDTDCDTDADC
297   DCDADCDCDGDCDTDTDADA
298   DADCDGDCDADCDGDTDADA
299   DGDGDGDCDTDGDTDCDCDC
300   DCDCDGDCDGDTDTDTDTDA
301   DADCDCDGDCDCDADADGDA
302   DGDGDADTDTDADCDTDCDC
303   DCDCDADGDTDCDTDCDCDA
304   DGDGDCDADCDGDCDGDTDC
305   DADGDADTDADTDADTDADC
306   DADTDCDCDTDGDTDGDCDA
307   DTDGDTDADTDTDGDADADC
308   DTDCDGDGDGDCDADTDTDC
309   DTDCDCDCDGDCDCDCDTDG
310   DGDADGDADADTDCDTDTDG
311   DGDTDGDCDCDGDADADGDC
312   DCDGDCDTDCDADADTDTDG
313   DGDTDCDGDTDADGDCDADA
314   DGDCDTDCDTDADCDCDADC
315   DCDGDCDTDTDADADADCDG
316   DCDADCDGDTDADADGDGDG
317   DCDTDGDTDCDCDCDCDCDG
318   DCDGDTDTDTDTDADADCDC
319   DGDCDCDADADGDADGDGDA
320   DTDTDADCDTDCDCDCDCDA
321   DGDTDCDTDCDCDADGDGDC
322   DADCDGDCDGDTDCDADGDA
323   DTDADTDADTDADCDADTDC
324   DCDTDGDTDGDCDADTDGDT
325   DADTDTDGDADADCDTDCDG
326   DGDGDADGDADTDCDTDGDC
327   DADTDGDCDCDTDCDADGDG
328   DADADGDCDTDTDGDGDCDG
329   DTDADADTDCDADTDGDGDT
330   DCDADTDADGDCDTDGDTDT
331   DTDCDCDTDGDTDGDTDGDA
332   DADADTDTDGDTDTDADTDC
333   DCDGDCDTDCDADCDADADT
334   DTDCDCDADCDADCDADADC
335   DADTDADCDGDADGDCDCDG
336   DGDADADGDCDADTDADADA
337   DGDTDGDTDADADADGDCDC
338   DTDGDGDGDGDTDGDCDCDT
339   DADADTDGDADGDTDGDADG
340   DCDTDADADCDTDCDADCDA
341   DTDTDADADTDTDGDCDGDT
342   DTDGDCDGDCDTDCDADCDT
343   DGDCDCDCDGDCDTDTDTDC
344   DCDADGDTDCDGDGDGDADA
345   DADCDCDTDGDTDCDGDTDG
346   DCDCDADGDCDTDGDCDADT
347   DTDADADTDGDADADTDCDG
348   DGDCDCDADADCDGDCDGDC
349   DGDGDGDGDADGDADGDGDC
350   DGDGDTDTDTDGDCDGDTDA
351   DTDTDGDGDGDCDGDCDTDC
352   DTDTDCDCDGDCDTDTDCDC
353   DTDCDGDCDTDCDADCDTDG
354   DADCDTDCDGDCDTDGDCDG
355   DCDTDCDGDGDTDCDGDTDT
356   DCDGDGDCDTDGDCDGDGDC
357   DGDADGDCDGDGDTDADTDC
358   DADGDCDTDCDADCDTDCDA
359   DADADGDGDCDGDGDTDADA
360   DTDADCDGDGDTDTDADTDC
361   DCDADCDADGDADADTDCDA
362   DGDGDGDGDADTDADADCDG
363   DCDADGDGDADADADGDADA
364   DCDADTDGDTDGDADGDCDA
365   DADADADGDGDCDCDADGDC
366   DADADADADGDGDCDCDADG
367   DGDADADCDCDGDTDADADA
368   DADADGDGDCDCDGDCDGDT
369   DTDGDCDTDGDGDCDGDTDT
370   DTDTDTDCDCDADTDADGDG
371   DCDTDCDCDGDCDCDCDCDC
372   DCDTDGDADCDGDADGDCDA
373   DTDCDADCDADADADADADT
374   DCDGDADCDGDCDTDCDADA
375   DGDTDCDADGDADGDGDTDG
376   DGDCDGDADADADCDCDCDG
377   DADCDADGDGDADCDTDADT
378   DADADADGDADTDADCDCDA
379   DGDGDCDGDTDTDTDCDCDC
380   DCDCDTDGDGDADADGDCDT
381   DCDCDCDTDCDGDTDGDCDG
382   DCDTDCDTDCDCDTDGDTDT
383   DCDCDGDADCDCDCDTDGDC
384   DCDGDCDTDTDADCDCDGDG
385   DADTDADCDCDTDGDTDCDC
386   DGDCDCDTDTDTDCDTDCDC
387   DCDTDTDCDGDGDGDADADG
388   DCDGDTDGDGDCDGDCDTDT
389   DTDCDTDCDADTDADGDCDT
390   DCDADCDGDCDTDGDTDADG
391   DGDTDADTDCDTDCDADGDT
392   DTDCDGDGDTDGDTDADGDG
393   DTDCDGDTDTDCDGDCDTDC
394   DCDADADGDCDTDGDGDGDC
395   DTDGDTDGDTDGDCDADCDG
396   DADADCDCDCDCDCDCDGDT
397   DTDCDADGDCDCDCDGDADC
398   DCDGDCDTDGDCDGDCDCDT
399   DTDADTDCDCDGDGDTDADA
400   DCDTDADTDCDGDTDCDTDT
401   DGDADGDTDCDCDADADCDC
402   DCDGDGDTDADADGDADCDA
403   DCDGDADCDTDTDADTDCDG
404   DCDCDADCDTDGDGDCDADG
405   DCDADGDCDCDADCDTDGDG
406   DTDADADCDADGDGDADTDT
407   DADGDCDADGDADGDCDGDA
408   DGDGDTDADTDGDTDADGDG
409   DCDGDGDTDGDCDTDADCDA
410   DGDADGDTDTDCDTDTDGDA
411   DADGDTDGDGDTDGDGDCDC
412   DTDADADCDTDADCDGDGDC
413   DTDADCDADCDTDADGDADA
414   DGDADADCDADGDTDADTDT
415   DTDGDGDTDADTDCDTDGDC
416   DGDCDTDCDTDGDCDTDGDA
417   DADGDCDCDADGDTDTDADC
418   DCDTDTDCDGDGDADADADA
419   DADGDADGDTDTDGDGDTDA
420   DGDCDTDCDTDTDGDADTDC
421   DCDGDGDCDADADADCDADA
422   DADCDCDADCDCDGDCDTDG
423   DGDTDADGDCDGDGDTDGDG
424   DTDTDTDTDTDTDTDGDTDT
425   DTDGDCDADADGDCDADGDC
426   DADGDADTDTDADCDGDCDG
427   DCDADGDADADADADADADA
428   DGDGDADTDCDTDCDADADG
429   DADADGDADTDCDCDTDTDT
430   DGDADTDCDTDTDTDTDCDT
431   DADCDGDGDGDGDTDCDTDG
432   DADCDGDCDTDCDADGDTDG
433   DGDADADCDGDADADADADC
434   DTDCDADCDGDTDTDADADG
435   DGDGDADTDTDTDTDGDGDT
436   DCDADTDGDADGDADTDTDA
437   DTDCDADADADADADGDGDA
438   DTDCDTDTDCDADCDCDTDA
439   DGDADTDCDCDTDTDTDTDA
440   DADADTDTDADADADADADT
441   DGDADADGDTDTDTDTDADA
442   DADTDCDADADTDCDTDADA
443   DADGDTDADTDADTDADTDG
444   DADGDTDADADADCDTDTDG
445   DGDTDCDTDGDADCDADGDT
446   DTDADCDCDADADTDGDCDT
447   DTDADADTDCDADGDTDGDA
448   DGDGDCDADCDCDTDADTDC
449   DTDCDADGDCDGDADTDCDT
450   DGDTDCDTDADTDTDTDCDG
451   DTDTDCDADTDCDCDADTDA
452   DGDTDTDGDCDCDTDGDADC
453   DTDCDCDCDCDGDTDCDGDT
454   DGDTDADGDADTDADADCDT
455   DADCDGDADTDADCDGDGDG
456   DADGDGDGDCDTDTDADCDC
457   DADTDCDTDGDGDCDCDCDC
458   DADGDTDGDCDTDGDCDADA
459   DTDGDADTDADCDCDGDCDG
460   DADGDADCDCDCDADCDGDC
461   DTDCDADCDCDGDGDCDTDC
462   DCDADGDADTDTDTDADTDC
463   DADGDCDADADTDADADADC
464   DCDADGDCDCDADGDCDCDG
465   DGDADADGDGDGDCDCDGDA
466   DGDCDGDCDADGDADADGDT
467   DGDGDTDCDCDTDGDCDADA
468   DCDTDTDTDADTDCDCDGDC
469   DCDTDCDCDADTDCDCDADG
470   DTDCDTDADTDTDADADTDT
471   DGDTDTDGDCDCDGDGDGDA
472   DADGDCDTDADGDADGDTDA
473   DADGDTDADGDTDTDCDGDC
474   DCDADGDTDTDADADTDADG
475   DTDTDTDGDCDGDCDADADC
476   DGDTDTDGDTDTDGDCDCDA
477   DTDTDGDCDTDADCDADGDG
478   DCDADTDCDGDTDGDGDTDG
479   DTDCDADCDGDCDTDCDGDT
480   DCDGDTDTDTDGDGDTDADT
481   DGDGDCDTDTDCDADTDTDC
482   DADGDCDTDCDCDGDGDTDT
483   DCDCDCDADADCDGDADTDC
484   DADADGDGDCDGDADGDTDT
485   DADCDADTDGDADTDCDCDC
486   DCDCDADTDGDTDTDGDTDG
487   DCDADADADADADADGDCDG
488   DGDTDTDADGDCDTDCDCDT
489   DTDCDGDGDTDCDCDTDCDC
490   DGDADTDCDGDTDTDGDTDC
491   DADGDADADGDTDADADGDT
492   DTDGDGDCDCDGDCDADGDT
493   DGDTDTDADTDCDADCDTDC
494   DADTDGDGDTDTDADTDGDG
495   DCDADGDCDADCDTDGDCDA
496   DTDADADTDTDCDTDCDTDT
497   DADCDTDGDTDCDADTDGDC
498   DCDADTDCDCDGDTDADADG
499   DADTDGDCDTDTDTDTDCDT
500   DGDTDGDADCDTDGDGDTDG
501   DADGDTDADCDTDCDADADC
502   DCDADADGDTDCDADTDTDC
503   DTDGDADGDADADTDADGDT
504   DGDTDADTDGDCDGDGDCDG
505   DADCDCDGDADGDTDTDGDC
506   DTDCDTDTDGDCDCDCDGDG
507   DCDGDTDCDADADTDADCDG
508   DGDGDADTDADADTDADCDC
509   DGDCDGDCDCDADCDADTDA
510   DGDCDADGDADADCDTDTDT
511   DADADADADGDTDGDCDTDC
512   DADTDCDADTDTDGDGDADA
513   DADADCDGDTDTDCDTDTDC
514   DGDGDGDGDCDGDADADADA
515   DCDTDCDTDCDADADGDGDA
516   DTDCDTDTDADCDCDGDCDT
517   DGDTDTDGDADGDADTDCDC
518   DADGDTDTDCDGDADTDGDT
519   DADADCDCDCDADCDTDCDG
520   DTDGDCDADCDCDCDADADC
521   DTDGDADTDCDTDTDCDADG
522   DCDADTDCDTDTDTDTDADC
523   DTDTDTDCDADCDCDADGDC
524   DGDTDTDTDCDTDGDGDGDT
525   DGDADGDCDADADADADADC
526   DADGDGDADADGDGDCDADA
527   DADADTDGDCDCDGDCDADA
528   DADADADADGDGDGDADADT
529   DADADGDGDGDCDGDADCDA
530   DCDGDGDADADADTDGDTDT
531   DGDADADTDADCDTDCDADT
532   DADCDTDCDTDTDCDCDTDT
533   DTDTDTDCDADADTDADTDT
534   DADTDTDGDADADGDCDADT
535   DTDTDADTDCDADGDGDGDT
536   DTDADTDTDGDTDCDTDCDA
537   DTDGDADGDCDGDGDADTDA
538   DCDADTDADTDTDTDGDADA
539   DTDGDTDADTDTDTDADGDA
540   DADADADADTDADADADCDA
541   DADADTDADGDGDGDGDTDT
542   DCDCDGDCDGDCDADCDADT
543   DTDTDCDCDCDCDGDADADA
544   DADGDTDGDCDCDADCDCDT
545   DGDADCDGDTDCDTDADADG
546   DADADADCDCDADTDTDADT
547   DTDADTDCDADTDGDADCDA
548   DTDTDADADCDCDTDADTDA
549   DADADADADTDADGDGDCDG
550   DTDADTDCDADCDGDADGDG
551   DCDCDCDTDTDTDCDGDTDC

Samples:

sample_1: Histone H3 (Xenopus laevis), [U-13C; U-15N; U-2H], mg/mL; Histone H4 (Xenopus laevis) mg/mL; Histone H2A (Xenopus laevis) mg/mL; Histone H2B (Xenopus laevis) mg/mL; 16_207_601 DNA mg/mL

sample_conditions_1: pH: 7.5; pressure: 1 atm; temperature: 283 K

Experiments:

NameSampleSample stateSample conditions
3D (H)CANHsample_1isotropicsample_conditions_1
3D (H)CONHsample_1isotropicsample_conditions_1
2D (H)NHsample_1isotropicsample_conditions_1

Software:

TOPSPIN - collection

NMRPipe - processing

NMRFAM-SPARKY - chemical shift assignment

NMR spectrometers:

  • Bruker AVANCE III 800 MHz

Download HSQC peak lists in one of the following formats:
CSV: Backbone or all simulated peaks
SPARKY: Backbone or all simulated peaks