PDB-7mnq: Crystal Structure of the ZnF2 of Nucleoporin NUP358/RanBP2 in com...

基本情報

• 登録情報: データベース: PDB / ID: 7mnq
• タイトル: Crystal Structure of the ZnF2 of Nucleoporin NUP358/RanBP2 in complex with Ran-GDP

要素

• E3 SUMO-protein ligase RanBP2
• GTP-binding nuclear protein Ran

• キーワード: TRANSPORT PROTEIN / NUCLEAR PORE COMPLEX COMPONENT / NUCLEOCYTOPLASMIC TRANSPORT / ZINC FINGER

機能・相同性

分子機能:

cytoplasmic periphery of the nuclear pore complex / SUMO ligase complex / SUMO ligase activity / annulate lamellae / pre-miRNA export from nucleus / RNA nuclear export complex / nuclear pore cytoplasmic filaments / snRNA import into nucleus / Nuclear Pore Complex (NPC) Disassembly / nuclear inclusion body / nuclear pore nuclear basket / Transport of Ribonucleoproteins into the Host Nucleus / Regulation of Glucokinase by Glucokinase Regulatory Protein / Defective TPR may confer susceptibility towards thyroid papillary carcinoma (TPC) / Regulation of cholesterol biosynthesis by SREBP (SREBF) / Transport of the SLBP independent Mature mRNA / NS1 Mediated Effects on Host Pathways / Transport of the SLBP Dependant Mature mRNA / SUMOylation of SUMOylation proteins / NLS-bearing protein import into nucleus / Transport of Mature mRNA Derived from an Intronless Transcript / protein localization to nucleolus / Rev-mediated nuclear export of HIV RNA / Nuclear import of Rev protein / SUMOylation of RNA binding proteins / nuclear export / NEP/NS2 Interacts with the Cellular Export Machinery / kinase activator activity / 転移酵素; アシル基を移すもの; アミノアシル基を移すもの / Transport of Mature mRNA derived from an Intron-Containing Transcript / tRNA processing in the nucleus / GTP metabolic process / SUMO transferase activity / Postmitotic nuclear pore complex (NPC) reformation / nucleocytoplasmic transport / centrosome localization / MicroRNA (miRNA) biogenesis / Viral Messenger RNA Synthesis / regulation of gluconeogenesis / DNA metabolic process / SUMOylation of ubiquitinylation proteins / Vpr-mediated nuclear import of PICs / mitotic sister chromatid segregation / SUMOylation of DNA replication proteins / protein sumoylation / ribosomal large subunit export from nucleus / Regulation of HSF1-mediated heat shock response / mRNA transport / viral process / positive regulation of protein binding / nuclear pore / ribosomal subunit export from nucleus / SUMOylation of DNA damage response and repair proteins / ribosomal small subunit export from nucleus / Amplification of signal from unattached kinetochores via a MAD2 inhibitory signal / centriole / Mitotic Prometaphase / EML4 and NUDC in mitotic spindle formation / response to amphetamine / SUMOylation of chromatin organization proteins / Resolution of Sister Chromatid Cohesion / protein export from nucleus / HCMV Late Events / mitotic spindle organization / Transcriptional regulation by small RNAs / ISG15 antiviral mechanism / RHO GTPases Activate Formins / recycling endosome / small GTPase binding / positive regulation of protein import into nucleus / Separation of Sister Chromatids / Signaling by ALK fusions and activated point mutants / HCMV Early Events / protein import into nucleus / GDP binding / melanosome / nuclear envelope / protein folding / mitotic cell cycle / G protein activity / snRNP Assembly / midbody / 加水分解酵素; 酸無水物に作用; GTPに作用・細胞または細胞小器官の運動に関与 / nuclear membrane / cadherin binding / protein heterodimerization activity / cell division / intracellular membrane-bounded organelle / GTPase activity / chromatin binding / chromatin / protein-containing complex binding / GTP binding / nucleolus / SARS-CoV-2 activates/modulates innate and adaptive immune responses / magnesium ion binding / protein-containing complex / RNA binding / extracellular exosome / zinc ion binding

ドメイン・相同性:

Nup358/RanBP2 E3 ligase domain / Nup358/RanBP2 E3 ligase domain / Ran binding protein RanBP1-like / Ran binding domain / RanBP1 domain / Ran binding domain type 1 profile. / Ran-binding domain / Ran GTPase / Small GTPase Ran-type domain profile. / Zinc finger domain / Zn-finger in Ran binding protein and others / Zinc finger RanBP2 type profile. / Zinc finger, RanBP2-type superfamily / Zinc finger RanBP2-type signature. / Zinc finger, RanBP2-type / Cyclophilin-type peptidyl-prolyl cis-trans isomerase, conserved site / Cyclophilin-type peptidyl-prolyl cis-trans isomerase signature. / Cyclophilin-type peptidyl-prolyl cis-trans isomerase domain profile. / Cyclophilin-type peptidyl-prolyl cis-trans isomerase domain / Cyclophilin type peptidyl-prolyl cis-trans isomerase/CLD / Cyclophilin-like domain superfamily / Ran (Ras-related nuclear proteins) /TC4 subfamily of small GTPases / TPR repeat region circular profile. / TPR repeat profile. / Tetratricopeptide repeats / Tetratricopeptide repeat / Rho (Ras homology) subfamily of Ras-like small GTPases / Ras subfamily of RAS small GTPases / Small GTPase / Ras family / Rab subfamily of small GTPases / Small GTP-binding protein domain / Tetratricopeptide-like helical domain superfamily / PH-like domain superfamily / P-loop containing nucleoside triphosphate hydrolase

構成要素:

GUANOSINE-5'-DIPHOSPHATE / E3 SUMO-protein ligase RanBP2 / GTP-binding nuclear protein Ran

• 生物種: Homo sapiens (ヒト)
• 手法: X線回折 / シンクロトロン / 単波長異常分散 / 解像度: 2.05 Å
• データ登録者: Bley, C.J. / Nie, S. / Mobbs, G.W. / Petrovic, S. / Gres, A.T. / Liu, X. / Mukherjee, S. / Harvey, S. / Huber, F.M. / Lin, D.H. / Brown, B. / Tang, A.W. / Rundlet, E.J. / Correia, A.R. / Chen, S. / Regmi, S.G. / Stevens, T.A. / Jette, C.A. / Dasso, M. / Patke, A. / Palazzo, A.F. / Kossiakoff, A.A. / Hoelz, A.

資金援助

米国, 3件

組織	認可番号	国
National Institutes of Health/National Institute of General Medical Sciences (NIH/NIGMS)	GM117360	米国
Howard Hughes Medical Institute (HHMI)	55108534	米国
Heritage Medical Research Institute		米国

• 引用: ジャーナル: Science / 年: 2022; タイトル: Architecture of the cytoplasmic face of the nuclear pore.; 著者: Christopher J Bley / Si Nie / George W Mobbs / Stefan Petrovic / Anna T Gres / Xiaoyu Liu / Somnath Mukherjee / Sho Harvey / Ferdinand M Huber / Daniel H Lin / Bonnie Brown / Aaron W Tang / Emily J Rundlet / Ana R Correia / Shane Chen / Saroj G Regmi / Taylor A Stevens / Claudia A Jette / Mary Dasso / Alina Patke / Alexander F Palazzo / Anthony A Kossiakoff / André Hoelz / ; 要旨: INTRODUCTION The subcellular compartmentalization of eukaryotic cells requires selective transport of folded proteins and protein-nucleic acid complexes. Embedded in nuclear envelope pores, which are generated by the circumscribed fusion of the inner and outer nuclear membranes, nuclear pore complexes (NPCs) are the sole bidirectional gateways for nucleocytoplasmic transport. The ~110-MDa human NPC is an ~1000-protein assembly that comprises multiple copies of ~34 different proteins, collectively termed nucleoporins. The symmetric core of the NPC is composed of an inner ring encircling the central transport channel and outer rings formed by Y‑shaped coat nucleoporin complexes (CNCs) anchored atop both sides of the nuclear envelope. The outer rings are decorated with compartment‑specific asymmetric nuclear basket and cytoplasmic filament nucleoporins, which establish transport directionality and provide docking sites for transport factors and the small guanosine triphosphatase Ran. The cytoplasmic filament nucleoporins also play an essential role in the irreversible remodeling of messenger ribonucleoprotein particles (mRNPs) as they exit the central transport channel. Unsurprisingly, the NPC's cytoplasmic face represents a hotspot for disease‑associated mutations and is commonly targeted by viral virulence factors. RATIONALE Previous studies established a near-atomic composite structure of the human NPC's symmetric core by combining (i) biochemical reconstitution to elucidate the interaction network between symmetric nucleoporins, (ii) crystal and single-particle cryo-electron microscopy structure determination of nucleoporins and nucleoporin complexes to reveal their three-dimensional shape and the molecular details of their interactions, (iii) quantitative docking in cryo-electron tomography (cryo-ET) maps of the intact human NPC to uncover nucleoporin stoichiometry and positioning, and (iv) cell‑based assays to validate the physiological relevance of the biochemical and structural findings. In this work, we extended our approach to the cytoplasmic filament nucleoporins to reveal the near-atomic architecture of the cytoplasmic face of the human NPC. RESULTS Using biochemical reconstitution, we elucidated the protein-protein and protein-RNA interaction networks of the human and cytoplasmic filament nucleoporins, establishing an evolutionarily conserved heterohexameric cytoplasmic filament nucleoporin complex (CFNC) held together by a central heterotrimeric coiled‑coil hub that tethers two separate mRNP‑remodeling complexes. Further biochemical analysis and determination of a series of crystal structures revealed that the metazoan‑specific cytoplasmic filament nucleoporin NUP358 is composed of 16 distinct domains, including an N‑terminal S‑shaped α‑helical solenoid followed by a coiled‑coil oligomerization element, numerous Ran‑interacting domains, an E3 ligase domain, and a C‑terminal prolyl‑isomerase domain. Physiologically validated quantitative docking into cryo-ET maps of the intact human NPC revealed that pentameric NUP358 bundles, conjoined by the oligomerization element, are anchored through their N‑terminal domains to the central stalk regions of the CNC, projecting flexibly attached domains as far as ~600 Å into the cytoplasm. Using cell‑based assays, we demonstrated that NUP358 is dispensable for the architectural integrity of the assembled interphase NPC and RNA export but is required for efficient translation. After NUP358 assignment, the remaining 4-shaped cryo‑ET density matched the dimensions of the CFNC coiled‑coil hub, in close proximity to an outer-ring NUP93. Whereas the N-terminal NUP93 assembly sensor motif anchors the properly assembled related coiled‑coil channel nucleoporin heterotrimer to the inner ring, biochemical reconstitution confirmed that the NUP93 assembly sensor is reused in anchoring the CFNC to the cytoplasmic face of the human NPC. By contrast, two CFNCs are anchored by a divergent mechanism that involves assembly sensors located in unstructured portions of two CNC nucleoporins. Whereas unassigned cryo‑ET density occupies the NUP358 and CFNC binding sites on the nuclear face, docking of the nuclear basket component ELYS established that the equivalent position on the cytoplasmic face is unoccupied, suggesting that mechanisms other than steric competition promote asymmetric distribution of nucleoporins. CONCLUSION We have substantially advanced the biochemical and structural characterization of the asymmetric nucleoporins' architecture and attachment at the cytoplasmic and nuclear faces of the NPC. Our near‑atomic composite structure of the human NPC's cytoplasmic face provides a biochemical and structural framework for elucidating the molecular basis of mRNP remodeling, viral virulence factor interference with NPC function, and the underlying mechanisms of nucleoporin diseases at the cytoplasmic face of the NPC. [Figure: see text].

履歴

登録	2021年5月1日	登録サイト: RCSB / 処理サイト: RCSB
改定 1.0	2022年6月15日	Provider: repository / タイプ: Initial release
改定 1.1	2022年6月22日	Group: Database references / カテゴリ: citation / citation_author Item: _citation.journal_volume / _citation.page_first / _citation.page_last / _citation.pdbx_database_id_PubMed / _citation.title / _citation_author.identifier_ORCID / _citation_author.name
改定 1.2	2024年5月22日	Group: Data collection / カテゴリ: chem_comp_atom / chem_comp_bond

集合体

登録構造単位

A: GTP-binding nuclear protein Ran

B: E3 SUMO-protein ligase RanBP2

ヘテロ分子

概要:

• 31.7 kDa, 2 ポリマー

構成要素の詳細:

	分子量 (理論値)	分子数
合計 (水以外)	31,711	5
ポリマ－	31,178	2
非ポリマー	533	3
水	1,171	65

1

概要:

• 登録構造と同一
• 登録者・ソフトウェアが定義した集合体
• 根拠: gel filtration, SEC-MALS

対称操作:

タイプ	名称	対称操作	数
identity operation	1_555	x,y,z	1

計算値:

Buried area	2360 Å2
ΔGint	-27 kcal/mol
Surface area	12080 Å2
手法	PISA

単位格子

Length a, b, c (Å)	59.820, 78.660, 56.270
Angle α, β, γ (deg.)	90.000, 90.000, 90.000
Int Tables number	18
Space group name H-M	P21212

Components on special symmetry positions

ID	モデル	要素
1	1	A-460- HOH

要素

タンパク質 / タンパク質・ペプチド , 2種, 2分子 A B

#1: タンパク質

A GTP-binding nuclear protein Ran / Androgen receptor-associated protein 24 / GTPase Ran / Ras-like protein TC4 / Ras-related nuclear protein

詳細:

分子量: 26567.381 Da / 分子数: 1 / 変異: F35S / 由来タイプ: 組換発現 / 由来: (組換発現) Homo sapiens (ヒト) / 遺伝子: RAN, ARA24, OK/SW-cl.81 / 発現宿主: Escherichia coli (大腸菌) / 参照: UniProt: P62826

#2: タンパク質・ペプチド

B E3 SUMO-protein ligase RanBP2 / 358 kDa nucleoporin / Nuclear pore complex protein Nup358 / Nucleoporin Nup358 / Ran-binding protein 2 / RanBP2 / p270

詳細:

分子量: 4610.347 Da / 分子数: 1 / 由来タイプ: 組換発現 / 由来: (組換発現) Homo sapiens (ヒト) / 遺伝子: RANBP2, NUP358 / 発現宿主: Escherichia coli (大腸菌) / 参照: UniProt: P49792

非ポリマー , 4種, 68分子

#3: 化合物

A-301 ChemComp-GDP / GUANOSINE-5'-DIPHOSPHATE / GDP

詳細:

タイプ: RNA linking / 分子量: 443.201 Da / 分子数: 1 / 由来タイプ: 合成 / 式: C₁₀H₁₅N₅O₁₁P₂ / コメント: GDP, エネルギー貯蔵分子*YM

#4: 化合物

A-302 ChemComp-MG / MAGNESIUM ION / マグネシウムジカチオン

詳細:

分子量: 24.305 Da / 分子数: 1 / 由来タイプ: 合成 / 式: Mg

#5: 化合物

B-1501 ChemComp-ZN / ZINC ION

詳細:

分子量: 65.409 Da / 分子数: 1 / 由来タイプ: 合成 / 式: Zn

#6: 水

ChemComp-HOH / water

詳細:

分子量: 18.015 Da / 分子数: 65 / 由来タイプ: 天然 / 式: H₂O

詳細

• 研究の焦点であるリガンドがあるか: N

実験情報

実験

• 実験: 手法: X線回折 / 使用した結晶の数: 1

試料調製

• 結晶: マシュー密度: 2.12 ų/Da / 溶媒含有率: 42.07 %
• 結晶化: 温度: 294 K / 手法: 蒸気拡散法, ハンギングドロップ法 / pH: 6.5 / 詳細: 21% (w/v) PEG 3350; 0.1 M Bis-Tris

データ収集

• 回折: 平均測定温度: 100 K / Serial crystal experiment: N
• 放射光源: 由来: シンクロトロン / サイト: SSRL / ビームライン: BL12-2 / 波長: 1.2829 Å
• 検出器: タイプ: DECTRIS PILATUS 6M / 検出器: PIXEL / 日付: 2018年6月9日
• 放射: プロトコル: SINGLE WAVELENGTH / 単色(M)・ラウエ(L): M / 散乱光タイプ: x-ray
• 放射波長: 波長: 1.2829 Å / 相対比: 1
• 反射: 解像度: 2.05→28.14 Å / Num. obs: 17126 / % possible obs: 99.4 % / 冗長度: 12.6 % / B_iso Wilson estimate: 39.68 Ų / R_pim(I) all: 0.029 / R_rim(I) all: 0.104 / Net I/σ(I): 13.9 / Num. measured all: 215148

反射 シェル

Diffraction-ID: 1

解像度 (Å)	冗長度 (%)	Mean I/σ(I) obs	Num. measured all	Num. unique obs	Rpim(I) all	Rrim(I) all	% possible all
2.05-2.12	10.9	1.2	17443	1596	0.607	2.088	95.6
4.41-28.14	11.9	36.4	22091	1854	0.016	0.058	100

解析

ソフトウェア

名称	バージョン	分類
xia2		データスケーリング
PHENIX	1.18.2	精密化
PDB_EXTRACT	3.27	データ抽出
Coot		モデル構築
AutoSol		位相決定
XDS		data processing
XDS		データ削減

精密化

構造決定の手法: 単波長異常分散 / 解像度: 2.05→28.13 Å / SU ML: 0.26 / 交差検証法: THROUGHOUT / σ(F): 1.34 / 位相誤差: 26.46 / 立体化学のターゲット値: ML

	Rfactor	反射数	%反射
Rfree	0.2085	891	5.22 %
Rwork	0.1897	16164	-
obs	0.1906	17055	98.99 %

• 溶媒の処理: 減衰半径: 0.9 Å / VDWプローブ半径: 1.11 Å / 溶媒モデル: FLAT BULK SOLVENT MODEL
• 原子変位パラメータ: B_iso max: 196.61 Ų / B_iso mean: 72.4136 Ų / B_iso min: 31.38 Ų

精密化ステップ

サイクル: final / 解像度: 2.05→28.13 Å

	タンパク質	核酸	リガンド	溶媒	全体
原子数	1880	0	42	65	1987
Biso mean	-	-	55.46	53.48	-
残基数	-	-	-	-	236

LS精密化 シェル

Refine-ID: X-RAY DIFFRACTION / R_factor R_free error: 0 / Total num. of bins used: 6

解像度 (Å)	Rfactor Rfree	Num. reflection Rfree	Rfactor Rwork	Num. reflection Rwork	Num. reflection all	% reflection obs (%)
2.05-2.18	0.3096	168	0.3216	2524	2692	96
2.18-2.35	0.2567	141	0.2533	2678	2819	100
2.35-2.58	0.2563	138	0.2228	2671	2809	99
2.58-2.96	0.2502	160	0.2151	2696	2856	100
2.96-3.72	0.2037	148	0.1931	2726	2874	99
3.72-28.13	0.1699	136	0.1565	2869	3005	100

精密化 TLS

手法: refined / Refine-ID: X-RAY DIFFRACTION

ID	L11 (°2)	L12 (°2)	L13 (°2)	L22 (°2)	L23 (°2)	L33 (°2)	S11 (Å °)	S12 (Å °)	S13 (Å °)	S21 (Å °)	S22 (Å °)	S23 (Å °)	S31 (Å °)	S32 (Å °)	S33 (Å °)	T11 (Å2)	T12 (Å2)	T13 (Å2)	T22 (Å2)	T23 (Å2)	T33 (Å2)	Origin x (Å)	Origin y (Å)	Origin z (Å)
1	2.5152	-0.948	-0.8199	2.0054	-1.1011	2.0008	0.3003	0.3281	0.3332	-0.1011	0.0956	0.1626	-0.0031	0.1188	0	0.359	-0.0024	0.0517	0.3798	0.026	0.537	0.307	15.7093	-23.0558
2	1.3078	-1.4617	0.1234	2.89	0.0578	1.1921	-0.0257	0.1262	-0.0327	-0.113	0.0947	-0.1235	-0.1069	0.0708	0	0.421	0.0007	0.0192	0.4818	0.0155	0.4313	-0.2654	8.2822	-26.1341
3	1.9263	0.4935	-0.1688	2.5932	0.2286	2.4372	0.0265	0.2597	0.756	0.0083	0.2693	0.1697	-0.5514	0.0757	0	0.5771	-0.0048	0.0426	0.4604	0.0422	0.7273	0.8809	24.6255	-23.6321
4	7.6638	7.1213	5.703	7.5108	6.4418	5.7052	-0.5172	0.9114	0.3591	-2.1286	0.4935	0.3892	-1.0116	0.2981	0.1454	0.7008	-0.0287	-0.0442	0.4345	0.2569	1.1377	-5.7485	30.3647	-26.9481
5	5.1186	0.8063	-2.3513	4.204	1.0284	3.818	0.1073	-0.6901	0.7482	0.5129	0.0829	0.3071	-0.6863	-0.1965	0.2534	0.6559	-0.0141	0.1108	0.3616	-0.1271	0.7242	-1.0226	24.2288	-12.3563
6	1.3972	1.7103	0.3363	2.318	1.2591	3.9662	-0.0934	-0.333	0.8302	0.306	0.0048	0.4167	-0.6032	-0.1362	0.0024	0.6752	0.0414	0.1188	0.5098	-0.0862	0.7677	-6.402	20.2314	-11.5489
7	1.4259	0.1538	-0.1743	2.3376	0.4837	1.3263	-0.0109	-0.4122	0.3015	0.7441	0.1138	0.3981	-0.0817	0.0213	-0	0.5806	0.0779	0.0682	0.5148	-0.0385	0.411	-3.5004	11.4506	-8.2599
8	1.2977	-1.3352	0.2466	1.6433	-1.234	3.6102	-0.9072	-1.0689	-0.1305	0.2314	0.1061	0.8242	-0.0749	-1.3546	0.2805	1.1407	0.0917	0.298	0.878	-0.3606	0.8768	-11.3738	25.5339	0.4708
9	0.1919	0.0519	0.1207	0.1292	-0.0391	0.1203	-0.4863	0.72	0.7431	0.3315	-0.5824	0.8254	0.4455	-1.3303	0.0001	0.9485	-0.21	0.1876	1.195	-0.0182	1.2063	-19.8669	1.4533	-24.9074
10	0.2451	-0.0608	0.0956	0.0619	-0.0221	0.037	-0.1537	0.7708	-0.5913	0.5888	0.0477	1.3213	0.4565	-0.1748	-0.0005	0.9656	-0.1751	0.0311	0.9725	0.0224	0.9967	-9.5692	8.6151	-41.9247
11	0.7586	-0.0468	0.1795	0.3559	0.0631	0.3189	-0.3221	0.7643	-1.3362	-0.6972	0.2722	0.427	-0.2359	-0.8255	0.01	0.8536	-0.0995	-0.0156	1.0641	0.0319	0.7014	-5.9851	11.9103	-39.3304
12	0.1263	0.0865	-0.0737	0.2034	-0.0624	0.0439	-0.0847	0.1608	0.3257	-0.447	-0.0282	0.2973	0.2528	-1.4767	0.0092	0.7571	-0.0561	-0.0051	1.1904	0.1352	0.6554	-4.2908	17.1122	-45.0513
13	0.0647	0.0319	-0.0004	0.0485	-0.0691	0.1441	0.2699	1.8283	0.3036	-0.7482	-0.5995	-0.4024	0.832	-0.4101	-0.0001	0.9721	0.1467	0.1144	1.194	-0.0362	0.7809	-0.4909	12.714	-45.7831

精密化 TLSグループ

ID	Refine-ID	Refine TLS-ID	Selection details	Auth asym-ID	Auth seq-ID
1	X-RAY DIFFRACTION	1	chain 'A' and (resid 7 through 29 )	A	7 - 29
2	X-RAY DIFFRACTION	2	chain 'A' and (resid 30 through 59 )	A	30 - 59
3	X-RAY DIFFRACTION	3	chain 'A' and (resid 60 through 103 )	A	60 - 103
4	X-RAY DIFFRACTION	4	chain 'A' and (resid 104 through 111 )	A	104 - 111
5	X-RAY DIFFRACTION	5	chain 'A' and (resid 112 through 132 )	A	112 - 132
6	X-RAY DIFFRACTION	6	chain 'A' and (resid 133 through 167 )	A	133 - 167
7	X-RAY DIFFRACTION	7	chain 'A' and (resid 168 through 199 )	A	168 - 199
8	X-RAY DIFFRACTION	8	chain 'A' and (resid 200 through 208 )	A	200 - 208
9	X-RAY DIFFRACTION	9	chain 'B' and (resid 1407 through 1412 )	B	0
10	X-RAY DIFFRACTION	10	chain 'B' and (resid 1416 through 1421 )	B	0
11	X-RAY DIFFRACTION	11	chain 'B' and (resid 1422 through 1430 )	B	0
12	X-RAY DIFFRACTION	12	chain 'B' and (resid 1431 through 1438 )	B	0
13	X-RAY DIFFRACTION	13	chain 'B' and (resid 1439 through 1443 )	B	0