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Showing all 43 items for (author: darrow & m)

EMDB-15940:
CryoEM structure of GroEL-ADP.BeF3-Rubisco.
Method: single particle / : Gardner S, Saibil HR

EMDB-15942:
CryoEM structure of GroEL-GroES-ADP.AlF3-Rubisco.
Method: single particle / : Gardner S, Saibil HR

PDB-8ba8:
CryoEM structure of GroEL-ADP.BeF3-Rubisco.
Method: single particle / : Gardner S, Saibil HR

PDB-8ba9:
CryoEM structure of GroEL-GroES-ADP.AlF3-Rubisco.
Method: single particle / : Gardner S, Saibil HR

EMDB-15939:
CryoEM structure of nucleotide-free GroEL-Rubisco.
Method: single particle / : Gardner S, Saibil HR

EMDB-15941:
CryoEM reconstruction of GroEL-ATP-Rubisco.
Method: single particle / : Gardner S, Saibil HR

EMDB-15943:
CryoEM reconstruction of GroEL-GroES-ADP.AlF3-Rubisco, class I.
Method: single particle / : Gardner S, Saibil HR

EMDB-15945:
CryoEM reconstruction of GroEL-GroES-ADP.AlF3-Rubisco, class III.
Method: single particle / : Gardner S, Saibil HR

EMDB-15946:
CryoEM reconstruction of GroEL-GroES-ADP.AlF3-Rubisco, class IV.
Method: single particle / : Gardner S, Saibil HR

PDB-8ba7:
CryoEM structure of nucleotide-free GroEL-Rubisco.
Method: single particle / : Gardner S, Saibil HR

EMDB-17767:
Cryo electron tomography of human choriocarcinoma cells
Method: electron tomography / : Tun WM, Yee NB-Y, Ho EML, Darrow MC, Basham M

EMDB-15636:
Human 80S ribosome structure from pFIB-lamellae
Method: subtomogram averaging / : Berger C, Grange M

EMDB-16185:
80S human ribosome structure from PFIB lamellae of HeLa cells for assessing the extend and depth of the damage layer: 15 to 30 nm
Method: subtomogram averaging / : Berger C, Grange M

EMDB-16186:
80S human ribosome structure from PFIB lamellae of HeLa cells for assessing the extend and depth of the damage layer: above 30 nm matched control (for 15 to 30 nm)
Method: subtomogram averaging / : Berger C, Grange M

EMDB-16192:
80S human ribosome structure from PFIB lamellae of HeLa cells for assessing the extend and depth of the damage layer:30 to 45 nm
Method: subtomogram averaging / : Berger C, Grange M

EMDB-16193:
80S human ribosome structure from PFIB lamellae of HeLa cells for assessing the extend and depth of the damage layer: above 45 nm matched control (for 30 to 45 nm)
Method: subtomogram averaging / : Berger C, Grange M

EMDB-16194:
80S human ribosome structure from PFIB lamellae of HeLa cells for assessing the extend and depth of the damage layer:45 to 60 nm
Method: subtomogram averaging / : Berger C, Grange M

EMDB-16195:
80S human ribosome structure from PFIB lamellae of HeLa cells for assessing the extend and depth of the damage layer: above 60 nm matched control (for 45 to 60 nm)
Method: subtomogram averaging / : Berger C, Grange M

EMDB-16196:
80S human ribosome structure from PFIB lamellae of HeLa cells for assessing the extend and depth of the damage layer: 0 to 15 nm
Method: subtomogram averaging / : Berger C, Grange M

EMDB-16199:
80S human ribosome structure from PFIB lamellae of HeLa cells for assessing the extend and depth of the damage layer: above 15 nm matched control (for 0 to 15 nm)
Method: subtomogram averaging / : Berger C, Grange M

EMDB-23773:
Structure of the Neisseria gonorrhoeae ribonucleotide reductase in the inactive state
Method: single particle / : Levitz TS, Drennan CL, Brignole EJ

PDB-7mdi:
Structure of the Neisseria gonorrhoeae ribonucleotide reductase in the inactive state
Method: single particle / : Levitz TS, Drennan CL, Brignole EJ

EMDB-10871:
30S ribosome subunit deposited by spraying (13 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10872:
30S ribosome subunit deposited using the chameleon (54 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10873:
30S ribosome subunit deposited using the chameleon (200 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10874:
30S ribosome subunit prepared by blotting
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10875:
50S ribosome subunit deposited by spraying (13 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10876:
50S ribosome subunit deposited using the chameleon (54 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10877:
50S ribosome subunit deposited using the chameleon (200 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10878:
50S ribosome subunit prepared by blotting
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10879:
70S ribosome deposited by spraying (13 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10880:
70S ribosome deposited using the chameleon (54 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10881:
70S ribosome deposited using the chameleon (200 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10882:
70S ribosome prepared by blotting
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10883:
HSPD1 single ring deposited by spraying (6 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10884:
HSPD1 single ring deposited by spraying (50 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10885:
HSPD1 single ring deposited using the chameleon (54 ms delay)
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-10886:
HSPD1 single ring prepared by blotting
Method: single particle / : Klebl DP, Gravett MSC, Darrow M, Thompson RF, Muench SP

EMDB-8173:
CryoET of MEF Cells and Associated Manual Segmentation of Microtubule and Actin
Method: electron tomography / : Hecksel CW, Darrow MC, Dai W, Galaz-Montoya JG, Chin JA, Mitchell PG, Chen S, Jakana J, Schmid MF, Chiu W

EMDB-8174:
CryoET of U2OS Cells and Associated Manual Segmentation of Mitochondria
Method: electron tomography / : Hecksel CW, Darrow MC, Dai W, Galaz-Montoya JG, Chin JA, Mitchell PG, Chen S, Jakana J, Schmid MF, Chiu W

EMDB-2947:
Cryo-electron microscopy structure of the occupied population of CCT5 complexes (mutant huntington oligomer subtrate)
Method: subtomogram averaging / : Darrow MC, Sergeeva OA, Isas JM, Galaz-Montoya J, King JA, Langen R, Schmid MF, Chiu W

EMDB-2962:
Cryo-electron microscopy structure of the unoccupied population of CCT5 complexes after incubation with mHtt
Method: subtomogram averaging / : Darrow MC, Sergeeva OA, Isas JM, Galaz-Montoya J, King JA, Langen R, Schmid MF, Chiu W

EMDB-2963:
Cryo-electron microscopy structure of the unoccupied control CCT5 complex (no substrate).
Method: subtomogram averaging / : Darrow MC, Sergeeva OA, Isas JM, Galaz-Montoya J, King JA, Langen R, Schmid MF, Chiu W

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Feb 9, 2022. New format data for meta-information of EMDB entries

New format data for meta-information of EMDB entries

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Oct 5, 2021. Nobel Prize for mechanically activated and temperature-gated ion channels

Nobel Prize for mechanically activated and temperature-gated ion channels

  • The Nobel Prize in Physiology or Medicine 2021 was awarded jointly to David Julius and Ardem Patapoutian "for their discoveries of receptors for temperature and touch."
  • EM Navigator can help to find cryo-EM structure data by both pioneers.

External links:The Nobel Prize in Physiology or Medicine 2021 - NobelPrize.org / Structure data by Ardem Patapoutian / Structure data by David Julius

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