EMDB-6306: Cryo-EM structure of the Bacillus subtilis MifM-stalled ribosome ...

基本情報

• 登録情報: データベース: EMDB / ID: EMD-6306
• タイトル: Cryo-EM structure of the Bacillus subtilis MifM-stalled ribosome complex
• マップデータ: Cryo-EM structure of the B. subtilis MifM-stalled ribosome complex

試料

• 試料: B. subtilis MifM-stalled ribosome complex
• 複合体: 70S ribosome
• タンパク質・ペプチド: Membrane protein insertion and folding monitor
• RNA: tRNA-Asp

• キーワード: Bacillus subtilis / ribosome / cryo-EM / atomic model / stalling / translation arrest / MifM / L22

機能・相同性

分子機能:

positive regulation of rRNA processing / nucleoid / rRNA processing / large ribosomal subunit / ribosomal small subunit biogenesis / ribosomal small subunit assembly / small ribosomal subunit / small ribosomal subunit rRNA binding / transferase activity / 5S rRNA binding / large ribosomal subunit rRNA binding / cytosolic small ribosomal subunit / cytosolic large ribosomal subunit / membrane => GO:0016020 / tRNA binding / cytoplasmic translation / rRNA binding / negative regulation of translation / ribosome / structural constituent of ribosome / ribonucleoprotein complex / translation / response to antibiotic / mRNA binding / DNA binding / RNA binding / zinc ion binding / metal ion binding / plasma membrane / cytoplasm / cytosol

ドメイン・相同性:

Ribosomal protein L10, eubacterial, conserved site / Ribosomal protein L10 signature. / Ribosomal protein L10 / : / Ribosomal protein S14, type Z / Ribosomal protein L11, bacterial-type / Ribosomal protein L31 type A / Ribosomal protein S16, conserved site / Ribosomal protein S16 signature. / Ribosomal protein L31 signature. / Ribosomal protein L31 / Ribosomal protein L31 superfamily / Ribosomal protein L31 / Ribosomal protein L21, conserved site / Ribosomal protein L21 signature. / Ribosomal protein L11, conserved site / Ribosomal protein L11 signature. / Ribosomal protein L16 signature 1. / Ribosomal protein L10-like domain superfamily / : / Ribosomal protein L10 / Ribosomal protein L10P / Ribosomal protein L6, conserved site / Ribosomal protein L6 signature 1. / Ribosomal protein L16, conserved site / Ribosomal protein L16 signature 2. / Ribosomal protein L17 signature. / Ribosomal protein L11, N-terminal / Ribosomal protein L11, N-terminal domain / Ribosomal protein L11/L12 / Ribosomal protein L11, C-terminal / Ribosomal protein L11, C-terminal domain superfamily / Ribosomal protein L11/L12, N-terminal domain superfamily / Ribosomal protein L11, RNA binding domain / Ribosomal protein L11/L12 / Ribosomal protein L36 signature. / Ribosomal protein L28/L24 superfamily / Ribosomal protein L32p, bacterial type / Ribosomal protein L28 / Ribosomal protein L35, conserved site / Ribosomal protein L35 signature. / Ribosomal protein L33, conserved site / Ribosomal protein L33 signature. / Ribosomal protein L35, non-mitochondrial / Ribosomal protein L5, bacterial-type / Ribosomal protein S14/S29 / Ribosomal protein L6, bacterial-type / Ribosomal protein L18, bacterial-type / Ribosomal protein L19, conserved site / Ribosomal protein L19 signature. / Ribosomal protein S3, bacterial-type / Ribosomal protein S6, conserved site / Ribosomal protein S6 signature. / Ribosomal protein L36 / Ribosomal protein L36 superfamily / Ribosomal protein L36 / Ribosomal protein S19, bacterial-type / Ribosomal protein L20 signature. / Ribosomal protein S7, bacterial/organellar-type / Ribosomal protein S11, bacterial-type / Ribosomal protein L27, conserved site / Ribosomal protein S13, bacterial-type / Ribosomal protein L27 signature. / Ribosomal protein S20 / Ribosomal protein S20 superfamily / Ribosomal protein S20 / Ribosomal protein S9, bacterial/plastid / Ribosomal protein S4, bacterial-type / 30S ribosomal protein S17 / Ribosomal protein S5, bacterial-type / Ribosomal protein L14P, bacterial-type / Ribosomal protein L34, conserved site / Ribosomal protein L34 signature. / Ribosomal protein S6, plastid/chloroplast / Ribosomal protein L22, bacterial/chloroplast-type / Ribosomal protein L2, bacterial/organellar-type / Ribosomal protein L35 / Ribosomal protein L35 superfamily / Ribosomal protein S2, bacteria/mitochondria/plastid / Ribosomal protein L35 / Ribosomal L28 family / Ribosomal protein L33 / Ribosomal protein L33 / Ribosomal protein L28/L24 / Ribosomal protein L33 superfamily / Ribosomal protein L30, bacterial-type / : / Ribosomal protein L18 / Ribosomal L18 of archaea, bacteria, mitoch. and chloroplast / Ribosomal protein L16 / Ribosomal protein S18, conserved site / Ribosomal protein S18 signature. / L28p-like / Ribosomal protein S16 / Ribosomal protein S16 / Ribosomal protein L20 / Ribosomal protein S16 domain superfamily / Ribosomal protein L20 / Ribosomal protein L20, C-terminal / Ribosomal protein S15, bacterial-type

構成要素:

Large ribosomal subunit protein bL19 / Large ribosomal subunit protein bL32 / Small ribosomal subunit protein uS11 / Large ribosomal subunit protein bL34 / Large ribosomal subunit protein bL27 / Large ribosomal subunit protein uL24 / Large ribosomal subunit protein uL29 / Small ribosomal subunit protein uS17 / Large ribosomal subunit protein uL14 / Large ribosomal subunit protein uL5 / Small ribosomal subunit protein uS14B / Small ribosomal subunit protein uS8 / Large ribosomal subunit protein uL16 / Large ribosomal subunit protein uL15 / Large ribosomal subunit protein uL30 / Large ribosomal subunit protein bL17 / Large ribosomal subunit protein bL36 / Small ribosomal subunit protein uS13 / Small ribosomal subunit protein uS2 / Small ribosomal subunit protein uS3 / Small ribosomal subunit protein uS4 / Small ribosomal subunit protein uS5 / Small ribosomal subunit protein bS6 / Small ribosomal subunit protein uS7 / Small ribosomal subunit protein uS9 / Small ribosomal subunit protein uS10 / Small ribosomal subunit protein uS12 / Small ribosomal subunit protein uS15 / Small ribosomal subunit protein bS16 / Small ribosomal subunit protein bS18 / Small ribosomal subunit protein uS19 / Small ribosomal subunit protein bS20 / Large ribosomal subunit protein bL21 / Large ribosomal subunit protein bL28 / Large ribosomal subunit protein uL22 / Large ribosomal subunit protein uL2 / Large ribosomal subunit protein uL3 / Large ribosomal subunit protein uL4 / Large ribosomal subunit protein uL10 / Large ribosomal subunit protein uL23 / Large ribosomal subunit protein uL6 / Large ribosomal subunit protein uL18 / Large ribosomal subunit protein bL20 / Large ribosomal subunit protein bL35 / Large ribosomal subunit protein bL33A / Large ribosomal subunit protein uL13 / Large ribosomal subunit protein bL31 / Large ribosomal subunit protein uL11 / Membrane protein insertion and folding monitor

• 生物種: Bacillus subtilis (枯草菌)
• 手法: 単粒子再構成法 / クライオ電子顕微鏡法 / 解像度: 3.9 Å
• データ登録者: Sohmen D / Chiba S / Shimokawa-Chiba N / Innis A / Berninghausen O / Beckmann R / Wilson DN
• 引用: ジャーナル: Nat Commun / 年: 2015; タイトル: Structure of the Bacillus subtilis 70S ribosome reveals the basis for species-specific stalling.; 著者: Daniel Sohmen / Shinobu Chiba / Naomi Shimokawa-Chiba / C Axel Innis / Otto Berninghausen / Roland Beckmann / Koreaki Ito / Daniel N Wilson / ; 要旨: Ribosomal stalling is used to regulate gene expression and can occur in a species-specific manner. Stalling during translation of the MifM leader peptide regulates expression of the downstream membrane protein biogenesis factor YidC2 (YqjG) in Bacillus subtilis, but not in Escherichia coli. In the absence of structures of Gram-positive bacterial ribosomes, a molecular basis for species-specific stalling has remained unclear. Here we present the structure of a Gram-positive B. subtilis MifM-stalled 70S ribosome at 3.5-3.9 Å, revealing a network of interactions between MifM and the ribosomal tunnel, which stabilize a non-productive conformation of the PTC that prevents aminoacyl-tRNA accommodation and thereby induces translational arrest. Complementary genetic analyses identify a single amino acid within ribosomal protein L22 that dictates the species specificity of the stalling event. Such insights expand our understanding of how the synergism between the ribosome and the nascent chain is utilized to modulate the translatome in a species-specific manner.

履歴

登録	2015年3月16日	-
ヘッダ(付随情報) 公開	2015年4月29日	-
マップ公開	2015年4月29日	-
更新	2016年2月17日	-
現状	2016年2月17日	処理サイト: RCSB / 状態: 公開

マップ

• ファイル: ダウンロード / ファイル: emd_6306.map.gz / 形式: CCP4 / 大きさ: 185.7 MB / タイプ: IMAGE STORED AS FLOATING POINT NUMBER (4 BYTES)
• 注釈: Cryo-EM structure of the B. subtilis MifM-stalled ribosome complex
• ボクセルのサイズ: X=Y=Z: 1.108 Å

密度

表面レベル	登録者による: 0.00155 / ムービー #1: 0.00155
最小 - 最大	-0.00492832 - 0.00883723
平均 (標準偏差)	0.00000473 (±0.0005257)

• 対称性: 空間群: 1

詳細

EMDB XML:

マップ形状	Axis order X Y Z Origin 0 0 0 サイズ 368 368 368 Spacing 368 368 368
セル	A=B=C: 407.74402 Å α=β=γ: 90.0 °

CCP4マップ ヘッダ情報:

mode	Image stored as Reals
Å/pix. X/Y/Z	1.108	1.108	1.108
M x/y/z	368	368	368
origin x/y/z	0.000	0.000	0.000
length x/y/z	407.744	407.744	407.744
α/β/γ	90.000	90.000	90.000
MAP C/R/S	1	2	3
start NC/NR/NS	0	0	0
NC/NR/NS	368	368	368
D min/max/mean	-0.005	0.009	0.000

添付データ

試料の構成要素

全体 : B. subtilis MifM-stalled ribosome complex

• 全体: 名称: B. subtilis MifM-stalled ribosome complex

要素

• 試料: B. subtilis MifM-stalled ribosome complex
• 複合体: 70S ribosome
• タンパク質・ペプチド: Membrane protein insertion and folding monitor
• RNA: tRNA-Asp

超分子 #1000: B. subtilis MifM-stalled ribosome complex

• 超分子: 名称: B. subtilis MifM-stalled ribosome complex / タイプ: sample / ID: 1000 / Number unique components: 3

超分子 #1: 70S ribosome

• 超分子: 名称: 70S ribosome / タイプ: complex / ID: 1 / 詳細: stalled / 組換発現: No / データベース: NCBI; Ribosome-details: ribosome-prokaryote: LSU 50S, LSU RNA 23S, LSU RNA 5S, SSU 30S, PSR16s, ALL
• 由来(天然): 生物種: Bacillus subtilis (枯草菌) / 株: 168

分子 #1: Membrane protein insertion and folding monitor

• 分子: 名称: Membrane protein insertion and folding monitor / タイプ: protein_or_peptide / ID: 1 / Name.synonym: MifM / コピー数: 1 / 集合状態: monomer / 組換発現: No / データベース: NCBI
• 由来(天然): 生物種: Bacillus subtilis (枯草菌) / 株: 168

分子 #2: tRNA-Asp

• 分子: 名称: tRNA-Asp / タイプ: rna / ID: 2 / 分類: TRANSFER / Structure: DOUBLE HELIX / Synthetic?: No
• 由来(天然): 生物種: Bacillus subtilis (枯草菌) / 株: 168

実験情報

構造解析

• 手法: クライオ電子顕微鏡法
• 解析: 単粒子再構成法
• 試料の集合状態: particle

試料調製

• 緩衝液: pH: 7.2
• グリッド: 詳細: 2 nm pre-coated Quantifoil R3/3 holey carbon support grids
• 凍結: 凍結剤: ETHANE / 装置: FEI VITROBOT MARK IV

電子顕微鏡法

• 顕微鏡: FEI TITAN KRIOS
• Cs: 0
• 日付: 2014年4月12日
• 撮影: カテゴリ: CCD; フィルム・検出器のモデル: FEI FALCON II (4k x 4k); 平均電子線量: 28 e/Ų
• 電子線: 加速電圧: 300 kV / 電子線源: FIELD EMISSION GUN
• 電子光学系: 照射モード: SPOT SCAN / 撮影モード: BRIGHT FIELD / 最大 デフォーカス（公称値）: 2.5 µm / 最小 デフォーカス（公称値）: 1.0 µm / 倍率（公称値）: 125085 / Cs: mm
• 試料ステージ: 試料ホルダーモデル: FEI TITAN KRIOS AUTOGRID HOLDER
• 実験機器: モデル: Titan Krios / 画像提供: FEI Company

画像解析

• CTF補正: 詳細: defocus groups
• 最終 再構成: 解像度のタイプ: BY AUTHOR / 解像度: 3.9 Å / 解像度の算出法: OTHER / ソフトウェア - 名称: SPIDER; 詳細: Since images from microscopy were processed in the absence of spatial frequencies higher than 8 A, a FSC cut-off value of 0.143 was used for average resolution determination of 3.9 A (Scheres and Chen, 2012).; 使用した粒子像数: 305045