EMDB-49876: E3 ligase UBR4-KCMF1-calmodulin complex

基本情報

登録情報

データベース: EMDB / ID: EMD-49876

• タイトル: E3 ligase UBR4-KCMF1-calmodulin complex

試料

• 複合体: Human E3 ubiquitin ligase UBR4-KCMF1-calmodulin complex (Silencing Factor of ISR, SiFI)
  • タンパク質・ペプチド: E3 ubiquitin-protein ligase UBR4
  • タンパク質・ペプチド: Calmodulin-1
  • タンパク質・ペプチド: E3 ubiquitin-protein ligase KCMF1
• リガンド: ZINC ION
• リガンド: CALCIUM ION

• キーワード: E3 ligase / UBR4 / ISR / LIGASE

機能・相同性

分子機能:

negative regulation of HRI-mediated signaling / synaptic signaling / ubiquitin-dependent protein catabolic process via the N-end rule pathway / protein K27-linked ubiquitination / cytoplasm protein quality control by the ubiquitin-proteasome system / protein branched polyubiquitination / negative regulation of fatty acid biosynthetic process / endosome organization / cytoplasm protein quality control / protein K11-linked ubiquitination / CaM pathway / Cam-PDE 1 activation / Sodium/Calcium exchangers / Calmodulin induced events / Reduction of cytosolic Ca++ levels / Activation of Ca-permeable Kainate Receptor / CREB1 phosphorylation through the activation of CaMKII/CaMKK/CaMKIV cascasde / Loss of phosphorylation of MECP2 at T308 / CREB1 phosphorylation through the activation of Adenylate Cyclase / PKA activation / CaMK IV-mediated phosphorylation of CREB / negative regulation of high voltage-gated calcium channel activity / Glycogen breakdown (glycogenolysis) / CLEC7A (Dectin-1) induces NFAT activation / Activation of RAC1 downstream of NMDARs / negative regulation of calcium ion export across plasma membrane / organelle localization by membrane tethering / mitochondrion-endoplasmic reticulum membrane tethering / autophagosome membrane docking / presynaptic endocytosis / regulation of cardiac muscle cell action potential / positive regulation of ryanodine-sensitive calcium-release channel activity / Synthesis of IP3 and IP4 in the cytosol / regulation of cell communication by electrical coupling involved in cardiac conduction / Phase 0 - rapid depolarisation / Negative regulation of NMDA receptor-mediated neuronal transmission / negative regulation of ryanodine-sensitive calcium-release channel activity / Unblocking of NMDA receptors, glutamate binding and activation / RHO GTPases activate PAKs / calcineurin-mediated signaling / Ion transport by P-type ATPases / Uptake and function of anthrax toxins / tertiary granule membrane / Long-term potentiation / Regulation of MECP2 expression and activity / Calcineurin activates NFAT / protein phosphatase activator activity / ficolin-1-rich granule membrane / regulation of ryanodine-sensitive calcium-release channel activity / DARPP-32 events / protein K63-linked ubiquitination / Smooth Muscle Contraction / catalytic complex / detection of calcium ion / regulation of cardiac muscle contraction / RHO GTPases activate IQGAPs / regulation of cardiac muscle contraction by regulation of the release of sequestered calcium ion / presynaptic cytosol / calcium channel inhibitor activity / protein K48-linked ubiquitination / cellular response to interferon-beta / specific granule membrane / Protein methylation / Activation of AMPK downstream of NMDARs / Ion homeostasis / regulation of release of sequestered calcium ion into cytosol by sarcoplasmic reticulum / eNOS activation / regulation of calcium-mediated signaling / Tetrahydrobiopterin (BH4) synthesis, recycling, salvage and regulation / titin binding / positive regulation of autophagy / voltage-gated potassium channel complex / sperm midpiece / substantia nigra development / calcium channel complex / calyx of Held / FCERI mediated Ca+2 mobilization / Ras activation upon Ca2+ influx through NMDA receptor / FCGR3A-mediated IL10 synthesis / adenylate cyclase activator activity / regulation of heart rate / Antigen activates B Cell Receptor (BCR) leading to generation of second messengers / protein serine/threonine kinase activator activity / VEGFR2 mediated cell proliferation / sarcomere / regulation of cytokinesis / VEGFR2 mediated vascular permeability / Translocation of SLC2A4 (GLUT4) to the plasma membrane / positive regulation of receptor signaling pathway via JAK-STAT / spindle microtubule / RAF activation / Transcriptional activation of mitochondrial biogenesis / RING-type E3 ubiquitin transferase / Stimuli-sensing channels / cellular response to type II interferon / long-term synaptic potentiation / response to calcium ion / RAS processing / spindle pole / Signaling by RAF1 mutants

ドメイン・相同性:

E3 ubiquitin-protein ligase UBR4, N-terminal / : / E3 ubiquitin-protein ligase UBR4 N-terminal / UBR4 E3 catalytic module profile. / Drought induced 19 protein type, zinc-binding domain / Drought induced 19 protein (Di19), zinc-binding / E3 ubiquitin ligase UBR4, C-terminal / E3 ubiquitin ligase UBR4-like / E3 ubiquitin-protein ligase UBR4 / : / Putative zinc finger in N-recognin (UBR box) / Zinc finger, UBR-type / Zinc finger UBR-type profile. / Putative zinc finger in N-recognin, a recognition component of the N-end rule pathway / Zinc finger ZZ-type signature. / Zinc-binding domain, present in Dystrophin, CREB-binding protein. / Zinc finger, ZZ type / Zinc finger, ZZ-type / Zinc finger, ZZ-type superfamily / Zinc finger ZZ-type profile. / zinc finger / : / Zinc finger C2H2 type domain profile. / Zinc finger C2H2-type / EF-hand domain pair / EF-hand, calcium binding motif / EF-Hand 1, calcium-binding site / EF-hand calcium-binding domain. / EF-hand calcium-binding domain profile. / EF-hand domain / EF-hand domain pair / Armadillo-type fold / WD40-repeat-containing domain superfamily

構成要素:

Calmodulin-1 / E3 ubiquitin-protein ligase UBR4 / E3 ubiquitin-protein ligase KCMF1

• 生物種: Homo sapiens (ヒト)
• 手法: 単粒子再構成法 / クライオ電子顕微鏡法 / 解像度: 3.2 Å
• データ登録者: Yang Z / Rape MP

資金援助

米国, 2件

Organization	Grant number	国
Howard Hughes Medical Institute (HHMI)		米国
The G. Harold and Leila Y. Mathers Foundation		米国

引用

ジャーナル: Nature / 年: 2025
タイトル: Molecular basis of SIFI activity in the integrated stress response.
著者: Zhi Yang / Diane L Haakonsen / Michael Heider / Samuel R Witus / Alex Zelter / Tobias Beschauner / Michael J MacCoss / Michael Rapé /
要旨: Chronic stress response activation impairs cell survival and causes devastating degenerative diseases. Organisms accordingly deploy silencing factors, such as the E3 ubiquitin ligase silencing factor of the integrated stress response (SIFI), to terminate stress response signalling and ensure cellular homeostasis. How a silencing factor can sense stress across cellular scales to elicit timely stress response inactivation is poorly understood. Here we combine cryo-electron microscopy analysis of endogenous SIFI with AlphaFold modelling and biochemical studies to report the structural and mechanistic basis of the silencing of the integrated stress response. SIFI detects both stress indicators and stress response components through flexible domains within an easily accessible scaffold, before building linkage-specific ubiquitin chains at separate, sterically restricted elongation modules. Ubiquitin handover by a ubiquitin-like domain couples versatile substrate modification to linkage-specific ubiquitin polymer formation. Stress response silencing therefore exploits a catalytic mechanism that is geared towards processing many diverse proteins and therefore allows a single enzyme to monitor and, if needed, modulate a complex cellular state.

#1: ジャーナル: Biorxiv / 年: 2024
タイトル: The molecular basis of integrated stress response silencing
著者: Yang Z / Haakonsen DL / Heider M / Witus SR / Zelter A / Beschauner T / MacCoss MJ / Rape M

履歴

登録	2025年3月22日	-
ヘッダ(付随情報) 公開	2025年6月18日	-
マップ公開	2025年6月18日	-
更新	2025年6月18日	-
現状	2025年6月18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_49876.map.gz / 形式: CCP4 / 大きさ: 244.1 MB / タイプ: IMAGE STORED AS FLOATING POINT NUMBER (4 BYTES)
• ボクセルのサイズ: X=Y=Z: 1.048 Å

密度

表面レベル	登録者による: 0.146
最小 - 最大	-0.6976985 - 1.4928006
平均 (標準偏差)	0.0010224823 (±0.026568636)

• 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 400 400 400 Spacing 400 400 400
セル	A=B=C: 419.19998 Å α=β=γ: 90.0 °

添付データ

マスク #1

• ファイル: emd_49876_msk_1.map

ハーフマップ: #2

• ファイル: emd_49876_half_map_1.map

ハーフマップ: #1

• ファイル: emd_49876_half_map_2.map

試料の構成要素

全体 : Human E3 ubiquitin ligase UBR4-KCMF1-calmodulin complex (Silencin...

• 全体: 名称: Human E3 ubiquitin ligase UBR4-KCMF1-calmodulin complex (Silencing Factor of ISR, SiFI)

要素

• 複合体: Human E3 ubiquitin ligase UBR4-KCMF1-calmodulin complex (Silencing Factor of ISR, SiFI)
  • タンパク質・ペプチド: E3 ubiquitin-protein ligase UBR4
  • タンパク質・ペプチド: Calmodulin-1
  • タンパク質・ペプチド: E3 ubiquitin-protein ligase KCMF1
• リガンド: ZINC ION
• リガンド: CALCIUM ION

超分子 #1: Human E3 ubiquitin ligase UBR4-KCMF1-calmodulin complex (Silencin...

• 超分子: 名称: Human E3 ubiquitin ligase UBR4-KCMF1-calmodulin complex (Silencing Factor of ISR, SiFI); タイプ: complex / ID: 1 / 親要素: 0 / 含まれる分子: #1-#3
• 由来(天然): 生物種: Homo sapiens (ヒト)
• 分子量: 理論値: 1.27 MDa

分子 #1: E3 ubiquitin-protein ligase UBR4

• 分子: 名称: E3 ubiquitin-protein ligase UBR4 / タイプ: protein_or_peptide / ID: 1 / コピー数: 2 / 光学異性体: LEVO / EC番号: RING-type E3 ubiquitin transferase
• 由来(天然): 生物種: Homo sapiens (ヒト)
• 分子量: 理論値: 577.180938 KDa

配列

文字列:

MDYKDHDGDY KDHDIDYKDD DDKATSGGEE AAAAAPAPGT PATGADTTPG WEVAVRPLLS ASYSAFEMKE LPQLVASVIE SESEILHHE KQYEPFYSSF VALSTHYITT VCSLIPRNQL QSVAAACKVL IEFSLLRLEN PDEACAVSQK HLILLIKGLC T GCSRLDRT EIITFTAMMK SAKLPQTVKT LSDVEDQKEL ASPVSPELRQ KEVQMNFLNQ LTSVFNPRTV ASQPISTQTL VE GENDEQS STDQASAIKT KNVFIAQNVA SLQELGGSEK LLRVCLNLPY FLRYINRFQD AVLANSFFIM PATVADATAV RNG FHSLVI DVTMALDTLS LPVLEPLNPS RLQDVTVLSL SCLYAGVSVA TCMAILHVGS AQQVRTGSTS SKEDDYESDA ATIV QKCLE IYDMIGQAIS SSRRAGGEHY QNFQLLGAWC LLNSLFLILN LSPTALADKG KEKDPLAALR VRDILSRTKE GVGSP KLGP GKGHQGFGVL SVILANHAIK LLTSLFQDLQ VEALHKGWET DGPPAALSIM AQSTSIQRIQ RLIDSVPLMN LLLTLL STS YRKACVLQRQ RKGSMSSDAS ASTDSNTYYE DDFSSTEEDS SQDDDSEPIL GQWFEETISP SKEKAAPPPP PPPPPLE SS PRVKSPSKQA PGEKGNILAS RKDPELFLGL ASNILNFITS SMLNSRNNFI RNYLSVSLSE HHMATLASII KEVDKDGL K GSSDEEFAAA LYHFNHSLVT SDLQSPNLQN TLLQQLGVAP FSEGPWPLYI HPQSLSVLSR LLLIWQHKAS AQGDPDVPE CLKVWDRFLS TMKQNALQGV VPSETEDLNV EHLQMLLLIF HNFTETGRRA ILSLFVQIIQ ELSVNMDAQM RFVPLILARL LLIFDYLLH QYSKAPVYLF EQVQHNLLSP PFGWASGSQD SNSRRATTPL YHGFKEVEEN WSKHFSSDAV PHPRFYCVLS P EASEDDLN RLDSVACDVL FSKLVKYDEL YAALTALLAA GSQLDTVRRK ENKNVTALEA CALQYYFLIL WRILGILPPS KT YINQLSM NSPEMSECDI LHTLRWSSRL RISSYVNWIK DHLIKQGMKA EHASSLLELA STTKCSSVKY DVEIVEEYFA RQI SSFCSI DCTTILQLHE IPSLQSIYTL DAAISKVQVS LDEHFSKMAA ETDPHKSSEI TKNLLPATLQ LIDTYASFTR AYLL QNFNE EGTTEKPSKE KLQGFAAVLA IGSSRCKANT LGPTLVQNLP SSVQTVCESW NNINTNEFPN IGSWRNAFAN DTIPS ESYI SAVQAAHLGT LCSQSLPLAA SLKHTLLSLV RLTGDLIVWS DEMNPPQVIR TLLPLLLESS TESVAEISSN SLERIL GPA ESDEFLARVY EKLITGCYNI LANHADPNSG LDESILEECL QYLEKQLESS QARKAMEEFF SDSGELVQIM MATANEN LS AKFCNRVLKF FTKLFQLTEK SPNPSLLHLC GSLAQLACVE PVRLQAWLTR MTTSPPKDSD QLDVIQENRQ LLQLLTTY I VRENSQVGEG VCAVLLGTLT PMATEMLANG DGTGFPELMV VMATLASAGQ GAGHLQLHNA AVDWLSRCKK YLSQKNVVE KLNANVMHGK HVMILECTCH IMSYLADVTN ALSQSNGQGP SHLSVDGEER AIEVDSDWVE ELAVEEEDSQ AEDSDEDSLC NKLCTFTIT QKEFMNQHWY HCHTCKMVDG VGVCTVCAKV CHKDHEISYA KYGSFFCDCG AKEDGSCLAL VKRTPSSGMS S TMKESAFQ SEPRISESLV RHASTSSPAD KAKVTISDGK VADEEKPKKS SLCRTVEGCR EELQNQANFS FAPLVLDMLN FL MDAIQTN FQQASAVGSS SRAQQALSEL HTVEKAVEMT DQLMVPTLGS QEGAFENVRM NYSGDQGQTI RQLISAHVLR RVA MCVLSS PHGRRQHLAV SHEKGKITVL QLSALLKQAD SSKRKLTLTR LASAPVPFTV LSLTGNPCKE DYLAVCGLKD CHVL TFSSS GSVSDHLVLH PQLATGNFII KAVWLPGSQT ELAIVTADFV KIYDLCVDAL SPTFYFLLPS SKIRDVTFLF NEEGK NIIV IMSSAGYIYT QLMEEASSAQ QGPFYVTNVL EINHEDLKDS NSQVAGGGVS VYYSHVLQML FFSYCQGKSF AATISR TTL EVLQLFPINI KSSNGGSKTS PALCQWSEVM NHPGLVCCVQ QTTGVPLVVM VKPDTFLIQE IKTLPAKAKI QDMVAIR HT ACNEQQRTTM ILLCEDGSLR IYMANVENTS YWLQPSLQPS SVISIMKPVR KRKTATITTR TSSQVTFPID FFEHNQQL T DVEFGGNDLL QVYNAQQIKH RLNSTGMYVA NTKPGGFTIE ISNNNSTMVM TGMRIQIGTQ AIERAPSYIE IFGRTMQLN LSRSRWFDFP FTREEALQAD KKLNLFIGAS VDPAGVTMID AVKIYGKTKE QFGWPDEPPE EFPSASVSNI CPSNLNQSNG TGDSDSAAP TTTSGTVLER LVVSSLEALE SCFAVGPIIE KERNKNAAQE LATLLLSLPA PASVQQQSKS LLASLHTSRS A YHSHKDQA LLSKAVQCLN TSSKEGKDLD PEVFQRLVIT ARSIAIMRPN NLVHFTESKL PQMETEGMDE GKEPQKQLEG DC CSFITQL VNHFWKLHAS KPKNAFLAPA CLPGLTHIEA TVNALVDIIH GYCTCELDCI NTASKIYMQM LLCPDPAVSF SCK QALIRV LRPRNKRRHV TLPSSPRSNT PMGDKDDDDD DDADEKMQSS GIPNGGHIRQ ESQEQSEVDH GDFEMVSESM VLET AENVN NGNPSPLEAL LAGAEGFPPM LDIPPDADDE TMVELAIALS LQQDQQGSSS SALGLQSLGL SGQAPSSSSL DAGTL SDTT ASAPASDDEG STAATDGSTL RTSPADHGGS VGSESGGSAV DSVAGEHSVS GRSSAYGDAT AEGHPAGPGS VSSSTG AIS TTTGHQEGDG SEGEGEGETE GDVHTSNRLH MVRLMLLERL LQTLPQLRNV GGVRAIPYMQ VILMLTTDLD GEDEKDK GA LDNLLSQLIA ELGMDKKDVS KKNERSALNE VHLVVMRLLS VFMSRTKSGS KSSICESSSL ISSATAAALL SSGAVDYC L HVLKSLLEYW KSQQNDEEPV ATSQLLKPHT TSSPPDMSPF FLRQYVKGHA ADVFEAYTQL LTEMVLRLPY QIKKITDTN SRIPPPVFDH SWFYFLSEYL MIQQTPFVRR QVRKLLLFIC GSKEKYRQLR DLHTLDSHVR GIKKLLEEQG IFLRASVVTA SSGSALQYD TLISLMEHLK ACAEIAAQRT INWQKFCIKD DSVLYFLLQV SFLVDEGVSP VLLQLLSCAL CGSKVLAALA A SSGSSSAS SSSAPVAASS GQATTQSKSS TKKSKKEEKE KEKDGETSGS QEDQLCTALV NQLNKFADKE TLIQFLRCFL LE SNSSSVR WQAHCLTLHI YRNSSKSQQE LLLDLMWSIW PELPAYGRKA AQFVDLLGYF SLKTPQTEKK LKEYSQKAVE ILR TQNHIL TNHPNSNIYN TLSGLVEFDG YYLESDPCLV CNNPEVPFCY IKLSSIKVDT RYTTTQQVVK LIGSHTISKV TVKI GDLKR TKMVRTINLY YNNRTVQAIV ELKNKPARWH KAKKVQLTPG QTEVKIDLPL PIVASNLMIE FADFYENYQA STETL QCPR CSASVPANPG VCGNCGENVY QCHKCRSINY DEKDPFLCNA CGFCKYARFD FMLYAKPCCA VDPIENEEDR KKAVSN INT LLDKADRVYH QLMGHRPQLE NLLCKVNEAA PEKPQDDSGT AGGISSTSAS VNRYILQLAQ EYCGDCKNSF DELSKII QK VFASRKELLE YDLQQREAAT KSSRTSVQPT FTASQYRALS VLGCGHTSST KCYGCASAVT EHCITLLRAL ATNPALRH I LVSQGLIREL FDYNLRRGAA AMREEVRQLM CLLTRDNPEA TQQMNDLIIG KVSTALKGHW ANPDLASSLQ YEMLLLTDS ISKEDSCWEL RLRCALSLFL MAVNIKTPVV VENITLMCLR ILQKLIKPPA PTSKKNKDVP VEALTTVKPY CNEIHAQAQL WLKRDPKAS YDAWKKCLPI RGIDGNGKAP SKSELRHLYL TEKYVWRWKQ FLSRRGKRTS PLDLKLGHNN WLRQVLFTPA T QAARQAAC TIVEALATIP SRKQQVLDLL TSYLDELSIA GECAAEYLAL YQKLITSAHW KVYLAARGVL PYVGNLITKE IA RLLALEE ATLSTDLQQG YALKSLTGLL SSFVEVESIK RHFKSRLVGT VLNGYLCLRK LVVQRTKLID ETQDMLLEML EDM TTGTES ETKAFMAVCI ETAKRYNLDD YRTPVFIFER LCSIIYPEEN EVTEFFVTLE KDPQQEDFLQ GRMPGNPYSS NEPG IGPLM RDIKNKICQD CDLVALLEDD SGMELLVNNK IISLDLPVAE VYKKVWCTTN EGEPMRIVYR MRGLLGDATE EFIES LDST TDEEEDEEEV YKMAGVMAQC GGLECMLNRL AGIRDFKQGR HLLTVLLKLF SYCVKVKVNR QQLVKLEMNT LNVMLG TLN LALVAEQESK DSGGAAVAEQ VLSIMEIILD ESNAEPLSED KGNLLLTGDK DQLVMLLDQI NSTFVRSNPS VLQGLLR II PYLSFGEVEK MQILVERFKP YCNFDKYDED HSGDDKVFLD CFCKIAAGIK NNSNGHQLKD LILQKGITQN ALDYMKKH I PSAKNLDADI WKKFLSRPAL PFILRLLRGL AIQHPGTQVL IGTDSIPNLH KLEQVSSDEG IGTLAENLLE ALREHPDVN KKIDAARRET RAEKKRMAMA MRQKALGTLG MTTNEKGQVV TKTALLKQME ELIEEPGLTC CICREGYKFQ PTKVLGIYTF TKRVALEEM ENKPRKQQGY STVSHFNIVH YDCHLAAVRL ARGREEWESA ALQNANTKCN GLLPVWGPHV PESAFATCLA R HNTYLQEC TGQREPTYQL NIHDIKLLFL RFAMEQSFSA DTGGGGRESN IHLIPYIIHT VLYVLNTTRA TSREEKNLQG FL EQPKEKW VESAFEVDGP YYFTVLALHI LPPEQWRATR VEILRRLLVT SQARAVAPGG ATRLTDKAVK DYSAYRSSLL FWA LVDLIY NMFKKVPTSN TEGGWSCSLA EYIRHNDMPI YEAADKALKT FQEEFMPVET FSEFLDVAGL LSEITDPESF LKDL LNSVP

UniProtKB: E3 ubiquitin-protein ligase UBR4

分子 #2: Calmodulin-1

• 分子: 名称: Calmodulin-1 / タイプ: protein_or_peptide / ID: 2 / コピー数: 2 / 光学異性体: LEVO
• 由来(天然): 生物種: Homo sapiens (ヒト)
• 分子量: 理論値: 16.852545 KDa

配列

文字列:

MADQLTEEQI AEFKEAFSLF DKDGDGTITT KELGTVMRSL GQNPTEAELQ DMINEVDADG NGTIDFPEFL TMMARKMKDT DSEEEIREA FRVFDKDGNG YISAAELRHV MTNLGEKLTD EEVDEMIREA DIDGDGQVNY EEFVQMMTAK

UniProtKB: Calmodulin-1

分子 #3: E3 ubiquitin-protein ligase KCMF1

• 分子: 名称: E3 ubiquitin-protein ligase KCMF1 / タイプ: protein_or_peptide / ID: 3 / コピー数: 2 / 光学異性体: LEVO / EC番号: RING-type E3 ubiquitin transferase
• 由来(天然): 生物種: Homo sapiens (ヒト)
• 分子量: 理論値: 41.992348 KDa

配列

文字列:

MSRHEGVSCD ACLKGNFRGR RYKCLICYDY DLCASCYESG ATTTRHTTDH PMQCILTRVD FDLYYGGEAF SVEQPQSFTC PYCGKMGYT ETSLQEHVTS EHAETSTEVI CPICAALPGG DPNHVTDDFA AHLTLEHRAP RDLDESSGVR HVRRMFHPGR G LGGPRARR SNMHFTSSST GGLSSSQSSY SPSNREAMDP IAELLSQLSG VRRSAGGQLN SSGPSASQLQ QLQMQLQLER QH AQAARQQ LETARNATRR TNTSSVTTTI TQSTATTNIA NTESSQQTLQ NSQFLLTRLN DPKMSETERQ SMESERADRS LFV QELLLS TLVREESSSS DEDDRGEMAD FGAMGCVDIM PLDVALENLN LKESNKGNEP PPPPL

UniProtKB: E3 ubiquitin-protein ligase KCMF1

分子 #4: ZINC ION

• 分子: 名称: ZINC ION / タイプ: ligand / ID: 4 / コピー数: 6 / 式: ZN
• 分子量: 理論値: 65.409 Da

分子 #5: CALCIUM ION

• 分子: 名称: CALCIUM ION / タイプ: ligand / ID: 5 / コピー数: 4 / 式: CA
• 分子量: 理論値: 40.078 Da

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

• 濃度: 3.6 mg/mL
• 緩衝液: pH: 7.5
• グリッド: モデル: Quantifoil R1.2/1.3 / 材質: COPPER / メッシュ: 300 / 前処理 - タイプ: GLOW DISCHARGE / 前処理 - 時間: 50 sec. / 前処理 - 雰囲気: AIR
• 凍結: 凍結剤: ETHANE / チャンバー内湿度: 100 % / チャンバー内温度: 283.15 K / 装置: FEI VITROBOT MARK IV

電子顕微鏡法

• 顕微鏡: TFS KRIOS
• 撮影: フィルム・検出器のモデル: GATAN K3 BIOQUANTUM (6k x 4k); 平均電子線量: 40.0 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: FLOOD BEAM / 撮影モード: BRIGHT FIELD / 最大 デフォーカス（公称値）: 2.0 µm / 最小 デフォーカス（公称値）: 0.8 µm
• 実験機器: モデル: Titan Krios / 画像提供: FEI Company

画像解析

• CTF補正: タイプ: PHASE FLIPPING ONLY

初期モデル

モデルのタイプ: PDB ENTRY
PDBモデル - PDB ID:

9d9z

• 最終 再構成: 解像度のタイプ: BY AUTHOR / 解像度: 3.2 Å / 解像度の算出法: FSC 0.143 CUT-OFF / 使用した粒子像数: 87263
• 初期 角度割当: タイプ: MAXIMUM LIKELIHOOD
• 最終 角度割当: タイプ: MAXIMUM LIKELIHOOD