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PDB ID Mentions in PubMed Central Article count: 7

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PDB ID Mentions in PubMed Central

Data mentions are occurrences of PDB IDs in the full text articles from the PubMedCentral Open Access Subset of currently about 1 million articles. For each article, the sentences containing the PDB ID are listed. Article titles can be filtered by keywords and sorted by year.

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DNA conformations and their sequence preferences.

(2008) Nucleic Acids Res 36

PubMed: 18477633 | PubMedCentral: PMC2441783 | DOI: 10.1093/nar/gkn260

The PDB codes of the structures used in the analysis Structure Type PDB Codes Noncomplexed A-DNA ( 46 ) 118d, 137d, 138d, 160d, 1d78, 1d79, 1dnz, 1kgk, 1m77, 1ma8, 1mlx, 1nzg, 1vj4, 1xjx, 1z7i, 1zex, ... zey, 1zf1, 1zf6, 1zf8, 1zf9, 1zfa, 213d, 243d, 260d, 295d, 2d94, 317d, 338d, 344d, 345d, 348d, 349d, 368d, 369d, 370d, 371d, 395d, 396d, 399d, 414d, 440d, 9dna, dh010, adh012, adh034 Noncomplexed B-DNA ( 72 ) 122d, 123d, 158d, 183d, 196d, 1bd1, 1bna, 1cw9, 1d23, 1d3r, 1d49, 1d56, 1d61, 1d8g, 1d8x, 1dou, 1dpn, 1edr, 1ehv, 1en3, 1en8, 1en9, 1ene, 1enn, 1fq2, 1g75, 1i3t, 1ikk, 1j8l, 1jgr, 1l4j, 1l6b, 1m6g, 1n1o, 1nvn, 1nvy, 1p4y, 1p54, 1s23, 1s2r, 1sgs, 1sk5, 1ub8, 1ve8, 1zf0, 1zf3, 1zf4, 1zf5, 1zf7, 1zfb, 1zff, 1zfg, 232d, 251d, 2d25, 307d, 355d, 3dnb, 403d, 423d, 428d, 431d, 436d, 454d, 455d, 456d, 460d, 463d, 476d, 477d, 5dnb, 9bna DNA/drug and DNA/ protein complexes, Z-DNA, quadruplexes (329) 110d, 115d, 131d, 145d, 151d, 152d, 159d, 181d, 182d, 184d, 190d, 191d, 1a1g, 1a1h, 1a1i, 1a1k, 1a2e, 1a73, 1aay, 1ais, 1azp, 1b94, 1b97, 1bf4, 1bqj, 1brn, 1c8c, 1cdw, 1ckq, 1cl8, 1cn0, 1d02, 1d11, 1d14, 1d15, 1d21, 1d22, 1d2i, 1d32, 1d37, 1d38, 1d40, 1d41, 1d45, 1d48, 1d53, 1d54, 1d58, 1d67, 1d76, 1d90, 1d9r, 1da0, 1da2, 1da9, 1dc0, 1dc1, 1dcg, 1dcr, 1dcw, 1dfm, 1dj6, 1dl8, 1dn4, 1dn5, 1dn8, 1dnf, 1dp7, 1dsz, 1e3o, 1egw, 1em0, 1emh, 1eo4, 1eon, 1esg, 1eyu, 1f0v, 1fd5, 1fdg, 1fhz, 1fiu, 1fms, 1fn1, 1fn2, 1g2f, 1g9z, 1gtw, 1gu4, 1h6f, 1hcr, 1hlv, 1hwt, 1hzs, 1i0t, 1i3w, 1ick, 1ign, 1ih4, 1ih6, 1imr, 1ims, 1j59, 1j75, 1jb7, 1jes, 1jft, 1jh9, 1jk1, 1jk2, 1jpq, 1jtl, 1juc, 1jux, 1jx4, 1k3w, 1k3x, 1k9g, 1kbu, 1kci, 1kx3, 1kx5, 1l1h, 1l1t, 1l1z, 1l3l, 1l3s, 1l3t, 1l3u, 1l3v, 1lat, 1lau, 1ljx, 1llm, 1lmb, 1m07, 1m19, 1m3q, 1m5r, 1m69, 1m6f, 1mf5, 1mj2, 1mjm, 1mjo, 1mjq, 1mnn, 1mus, 1mw8, 1nh2, 1njw, 1njx, 1nk0, 1nk4, 1nk7, 1nk8, 1nk9, 1nkc, 1nke, 1nkp, 1nnj, 1nqs, 1nr8, 1nt8, 1nvp, 1o0k, 1omk, 1orn, 1p20, 1p3i, 1p3l, 1p71, 1per, 1pfe, 1ph4, 1ph6, 1ph8, 1pji, 1pjj, 1puf, 1pup, 1puy, 1q3f, 1qda, 1qn3, 1qn4, 1qn5, 1qn6, 1qn8, 1qn9, 1qna, 1qnb, 1qne, 1qum, 1qyk, 1qyl, 1qzg, 1r2z, 1r3z, 1r41, 1r68, 1rff, 1rh6, 1rnb, 1rpe, 1rqy, 1run, 1s1k, 1s1l, 1s32, 1ssp, 1suz, 1sx5, 1sxq, 1t9i, 1tdz, 1tez, 1tro, 1u1p, 1u1q, 1u1r, 1u4b, 1ue2, 1ue4, 1uhy, 1v3n, 1v3o, 1v3p, 1vzk, 1w0u, 1wd0, 1wte, 1wto, 1wtp, 1wtq, 1wtr, 1wtv, 1xa2, 1xam, 1xc9, 1xjv, 1xo0, 1xuw, 1xux, 1xvn, 1xvr, 1xyi, 1ytb, 1ytf, 1zez, 1zf2, 1zna, 200d, 210d, 211d, 212d, 215d, 221d, 224d, 234d, 235d, 236d, 241d, 242d, 244d, 245d, 254d, 258d, 276d, 277d, 278d, 279d, 284d, 288d, 292d, 293d, 2bdp, 2bop, 2cgp, 2crx, 2dcg, 2des, 2hap, 2hdd, 2nll, 2or1, 2pvi, 304d, 306d, 308d, 313d, 314d, 331d, 334d, 336d, 351d, 352d, 360d, 362d, 366d, 367d, 383d, 385d, 386d, 3bam, 3bdp, 3cro, 3crx, 3hts, 3pvi, 400d, 417d, 427d, 432d, 441d, 442d, 443d, 452d, 453d, 465d, 467d, 473d, 481d, 482d, 4bdp, adh013, zdf013, zdfb03, zdfb06 The DNA conformational space was investigated at the level of a dinucleotide unit with its 5′-end phosphate group removed; it was described by six backbone torsion angles between γ and δ + 1, plus two χ angles characterizing the glycosidic bond ( Figure 1 ).

Publication Year: 2008


Small local variations in B-form DNA lead to a large variety of global geometries which can accommodate most DNA-binding protein motifs.

(2009) BMC Struct Biol 9

PubMed: 19393049 | PubMedCentral: PMC2687451 | DOI: 10.1186/1472-6807-9-24

Of the structures where the DNA is curved, the CAP-DNA complexes (1CGP, 1J59, 1RUN), an ARAC family transcriptional activator-DNA complex (1BL0) and a CENP-B protein-DNA complex (1HLV), all consist of... a dimeric protein that binds to two successive major grooves of the DNA, approximately one helix turn apart and the DNA is essentially curved due to two major in-phase kinks (additional file 4 , figure 1a ).

The PDB id's correspond to the following biological molecules: 1KX5 – Nucleosome core particle, 4CRX – CRE recombinase protein-bound DNA, 1J59 – Catabolic Activator Protein (CAP)-bound DNA, 1DDN -Diphtheria tox repressor-bound DNA, 1T9J – Endonuclease-bound DNA, 1RIO – lambda CI-NTD-sigma-region4-bound DNA, 1APL – MAT alpha2 homeodomain-bound DNA.

Cfit Lfit Cfit/Lfit Value Position 1KX5 30 15.1 10.5 51.9 A 10 A 11 A 12 126.7 0.77 37.9 0.6 20.0 0.03 C 0.1 1J59 28 25.3 16.2 66.5 T 9 G 10 A 11 98.5 0.85 47.2 0.7 21.4 0.03 C -41.9 1RUN 28 30.4 17.1 71.1 T 9 G 10 A 11 109.7 0.85 47.8 0.6 22.2 0.03 C -50.6 1CGP 26 19.1 18.9 65.9 G 7 T 8 G 9 72.4 0.86 48.2 0.8 17.9 0.04 C -51.1 1BL0 20 10.5 6.1 25.0 A 6 G 7 C 8 38.8 0.94 47.0 0.7 3.6 0.19 C -68.9 1HLV 19 10.0 7.6 30.1 G 15 G 16 G 17 39.3 0.95 54.6 0.6 3.3 0.18 C -129.0 1APL 18 11.8 7.3 33.0 A 16 C 17 G 18 3.7 0.99 NA 4.9 0.9 5.44 L NA 1K78 23 9.1 3.2 15.6 T 19 G 20 G 21 15.9 1.00 NA 2.4 1.0 2.40 L NA 4CRX 32 11.8 12.2 56.5 A 17 T 18 G 19 76.3 0.82 NA 3.4 9.1 0.37 U NA 1GDT 32 15.4 13.0 60.3 T 14 T 15 A 16 40.2 0.87 NA 1.6 14.5 0.11 U NA 1MNM 23 11.8 7.8 26.8 G 13 A 14 A 15 58.7 0.89 NA 1.7 5.4 0.31 U NA 1JE8 18 23.0 13.0 49.6 T 2 A 3 C 4 56.9 0.93 NA 1.1 5.0 0.22 U NA 1DDN 23 8.8 4.4 19.1 T 13 T 14 A 15 36.0 0.95 NA 7.7 2.5 3.08 U NA 1L3L 18 9.0 5.9 19.7 C 14 A 15 C 16 32.5 0.96 NA 1.5 1.6 0.94 U NA 1U78 23 10.6 12.3 51.1 T 10 A 11 G 12 41.3 0.97 NA 1.4 19.6 0.07 U NA 1Z9C 24 10.0 5.9 23.9 T 11 A 12 T 13 3.4 0.97 NA 6.1 2.0 3.05 U NA 1H88 23 7.4 4.5 16.8 C 8 A 9 A 10 12.3 0.98 NA 1.6 7.8 0.21 U NA 1D5Y 18 8.9 5.7 21.6 C 15 A 16 A 17 10.6 0.98 NA 2.6 2.0 1.30 U NA 1K61 18 8.8 6.1 22.3 T 4 A 5 A 6 6.6 0.99 NA 1.3 7.1 0.18 U NA 1DU0 18 6.3 4.0 15.2 C 15 C 16 T 17 10.1 0.99 NA 0.6 2.9 0.21 U NA 1RIO 25 14.8 8.7 34.1 C 8 C 9 G 10 16.1 0.99 NA 0.6 2.7 0.22 U NA 6PAX 22 11.8 7.1 25.6 A 8 C 9 G 10 20.4 0.99 NA 0.6 2.1 0.29 U NA 2HDD 18 10.7 5.4 23.3 T 12 C 13 C 14 22.9 0.99 NA 1.2 1.8 0.67 U NA 1HDD 18 10.9 4.1 19.9 G 3 C 4 C 5 1.9 0.99 NA 2.6 1.4 1.86 U NA 3HDD 18 6.5 3.7 14.4 G 8 T 9 A 10 8.3 0.99 NA 3.0 1.4 2.14 U NA 1JT0 26 10.4 5.9 22.1 A 23 T 24 A 25 29.8 0.99 NA 9.1 1.1 8.27 U NA 1F4K 19 7.9 5.1 20.2 T 3 G 4 A 5 24.8 1.00 NA 0.8 2.4 0.33 U NA 1MDM 23 9.2 4.7 20.8 A 6 G 7 A 8 15.6 1.00 NA 1.7 1.1 1.55 U NA 1HF0 20 10.5 7.3 30.7 T 6 G 7 A 8 28.6 1.01 NA 1.4 0.9 1.56 U NA The calculation of successive bending angles, end-to-end bending angle, d/l local , Radius of Curvature (ROC), RMSD for circle fit (Cfit) and line fit (Lfit) and torsion angle for out-of-plane component of bending have been described in the 'Methods' section.

Publication Year: 2009


Symmetric allosteric mechanism of hexameric Escherichia coli arginine repressor exploits competition between L-arginine ligands and resident arginine residues.

(2010) PLoS Comput Biol 6

PubMed: 20532206 | PubMedCentral: PMC2880562 | DOI: 10.1371/journal.pcbi.1000801

The protein structure was prepared from PDB ID 1B4A (apoBstArgR) and DNA structure as described in [13] from PDB ID 1J59 (cAMP receptor).

Publication Year: 2010


Unleashing the power of meta-threading for evolution/structure-based function inference of proteins.

(2013) Front Genet 4

PubMed: 23802014 | PubMedCentral: PMC3686302 | DOI: 10.3389/fgene.2013.00118

In parentheses are the PDB IDs of weakly homologous (<40% sequence identity) templates identified by e Thread for 2zgm (1c1l, 1d2s, 1g86, 1gzw, 1hdk, 1is3, 1kel, 1kjl, 1kjr, 1lhu, 1lhw, 1ngx, ... qfm, 1qkq, 1slt, 1t2q, 1w6o, 1w6p, 2bkl, 2d03, 2d6m, 2eak, 2eal, 2nmo, 2ny1, 2r0h, 2vno, 2wkk, 2wt0, 2wt1, 2xg3, 2z3z, 2zaa, 2zab, 2zac, 2zhk, 2zhl, 2zhm, 3a71, 3a72, 3ap6, 3ap7, 3gal, 3h3l, 3htl, 3nv3, 3nv4, 3o4h, 4gal); 3mey (1b8a, 1e1t, 1e22, 1e24, 1eqr, 1evk, 1evl, 1fyf, 1kog, 1nyq, 1qf6, 1x54, 1x55, 2cim, 2cja, 2i4o, 2j3m, 2q7e, 2q7g, 2rhq, 2rhs, 2xgt, 2xti, 2zcd, 2zce, 2zin, 3a31, 3a74, 3bju, 3e9h, 3e9i, 3nem, 3qtc); 2fug (1cc1, 1e3d, 1fp4, 1frf, 1frv, 1g20, 1g21, 1h1l, 1h2a, 1h2r, 1l5h, 1l9g, 1m1n, 1m1y, 1m34, 1mio, 1n2c, 1qgu, 1qh1, 1qh8, 1ui0, 1ui1, 1vk2, 1yqw, 1yrq, 2a5h, 2afh, 2afi, 2afk, 2d3y, 2ddg, 2dp6, 2frv, 2min, 2wpn, 2xdq, 3aek, 3aet, 3k1a, 3min, 3myr, 3pdi); 1pue (1if1, 1j59, 1k79, 1lb2, 1o3s, 1run, 1t2k, 1xsd, 1yo5, 2cgp, 3e54, 3jtg); and 2ec2 (1a9n, 1hr6, 1y13, 2a6m, 2a6o, 2ar9, 2vic, 2vih, 2vju, 3a4i, 3a74, 3bju, 3lmb).

Publication Year: 2013


Modulation of global low-frequency motions underlies allosteric regulation: demonstration in CRP/FNR family transcription factors.

(2013) PLoS Biol 11

PubMed: 24058293 | PubMedCentral: PMC3769225 | DOI: 10.1371/journal.pbio.1001651

PDB files for constructing CAP ENMs were 1CGP, 1G6N, 1HW5, 1I5Z, 1I6X, 1J59, 1O3T, 1RUN, 1RUO, 1ZRC, 1ZRD, 1ZRF, 2GZW, 4HZF (this work), and an additional in-house file isostructural to 2GZW.

Publication Year: 2013


The Crystal Structures of Apo and cAMP-Bound GlxR from Corynebacterium glutamicum Reveal Structural and Dynamic Changes upon cAMP Binding in CRP/FNR Family Transcription Factors.

(2014) PLoS One 9

PubMed: 25469635 | PubMedCentral: PMC4254451 | DOI: 10.1371/journal.pone.0113265

a) apo Cg-GlxR in blue with the NMR structure of Ec-CRP in magenta (PDB code 2WC2) b) holo Cg-GlxR (in red) superimposed on cAMP bound Ec-CRP (PDB code: 1G6N) shown in light blue; c) holo Cg-GlxR (in ... ed) superimposed on cAMP-bound Ec-CRP as bound to DNA (PDB code: 1J59) shown in pink.

t004 Table 4 Comparison of holo nCg-GlxR with cAMP-bound forms of Mt-CRP (PDB code 3I54), Ec-CRP (PDB code: 1G6N) and Ec-CRP bound to DNA (PDBP code: 1J59).

Publication Year: 2014


Quantitative evaluation of protein-DNA interactions using an optimized knowledge-based potential.

(2005) Nucleic Acids Res 33

PubMed: 15673715 | PubMedCentral: PMC548349 | DOI: 10.1093/nar/gki204

Table 1 Data set of protein–DNA complexes Structural set (141 complexes) 1a02 1a0a 1a1g 1a1h 1a1k 1a3q 1akh 1am9 1an2 1an4 1apl 1au7 1b01 1b3t 1b72 1b8i 1bc8 1bdt 1bf5 1bl0 1by4 1c0w 1c9b 1cdw... 1cez 1cf7 1cgp 1cit 1d3u 1d5y 1ddn 1dh3 1du0 1dux 1e3o 1ea4 1efa 1egw 1f2i 1f5t 1fjl 1fos 1fzp 1g2f 1gd2 1gji 1gt0 1gu4 1gu5 1gxp 1h6f 1h8a 1h9d 1h9t 1hbx 1hcq 1hlo 1hlz 1hw2 1hwt 1ic8 1if1 1ig7 1ign 1imh 1io4 1j59 1je8 1jfi 1jgg 1jj4 1jk1 1jk2 1jnm 1jt0 1k6o 1k78 1k79 1k7a 1kb2 1kb4 1kb6 1ku7 1l3l 1lat 1lb2 1le5 1le9 1llm 1lmb 1lq1 1mdy 1mhd 1mjm 1mjo 1mm8 1mnm 1mnn 1mur 1n6j 1ngm 1nkp 1nvp 1nwq 1oct 1odh 1owf 1p47 1p7h 1pdn 1per 1pp7 1pp8 1pue 1puf 1pyi 1pzu 1r0o 1r4o 1r4r 1ram 1rio 1rpe 1run 1skn 1tf6 1tgh 1tsr 1ubd 1yrn 1ysa 1ytb 1ytf 2cgp 2drp 2gli 2hap 2hdd 2or1 6cro 6pax Table 2 Recognition accuracy for specific interactions between TFs and native bound DNA sequences Accuracy Top 1(%) Top 10(%) Top 20(%) Top 1(%) Top 5(%) Whole structural set 39.7 70.2 77.3 79.4 90.1 α-Helix a 26.3 54.4 63.2 66.7 82.5 α-Helix + β-strand a 49.4 79.2 85.7 87.0 94.8 a α-helix and β-strand refer to the secondary structures of DNA-binding sites.

Publication Year: 2005