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Showing 1 - 50 of 209 items for (author: schaefer & e)

EMDB-54211:
Structure of the Ypt7 GEF complex Mon1-Ccz1 from Chaetomium Thermophilum
Method: single particle / : Wilmes S, Schaefer J, Moeller A, Kuemmel D

EMDB-54212:
Ypt7 in complex with its GEF Mon1-Ccz1
Method: single particle / : Wilmes S, Schaefer J, Moeller A, Kuemmel D

EMDB-54213:
human Fuzzy-Inturned
Method: single particle / : Wilmes S, Schaefer J, Januliene D, Moeller A, Kuemmel D

EMDB-54214:
Rab23 in complex with Fuzzy-Inturned
Method: single particle / : Wilmes S, Schaefer J, Januliene D, Moeller A, Kuemmel D

PDB-9rs6:
Structure of the Ypt7 GEF complex Mon1-Ccz1 from Chaetomium Thermophilum
Method: single particle / : Wilmes S, Schaefer J, Moeller A, Kuemmel D

PDB-9rs7:
Ypt7 in complex with its GEF Mon1-Ccz1
Method: single particle / : Wilmes S, Schaefer J, Moeller A, Kuemmel D

PDB-9rs8:
human Fuzzy-Inturned
Method: single particle / : Wilmes S, Schaefer J, Januliene D, Moeller A, Kuemmel D

PDB-9rs9:
Rab23 in complex with Fuzzy-Inturned
Method: single particle / : Wilmes S, Schaefer J, Januliene D, Moeller A, Kuemmel D

EMDB-50657:
Helical reconstruction of human TIRAP
Method: helical / : Schaefer JH, Piehler J, Moeller A

PDB-9fqm:
Helical reconstruction of human TIRAP
Method: helical / : Schaefer JH, Piehler J, Moeller A

EMDB-47091:
Taeniopygia guttata R2 retrotransposon (R2Tg) initiating target-primed reverse transcription
Method: single particle / : Wilkinson ME, Edmonds KHK, Zhang F

PDB-9dou:
Taeniopygia guttata R2 retrotransposon (R2Tg) initiating target-primed reverse transcription
Method: single particle / : Wilkinson ME, Edmonds KHK, Zhang F

EMDB-50502:
Lysosomal transporting complex of beta-glucocerebrosidase (GCase) and lysosomal integral membrane protein 2 (LIMP-2) with bound Pro-macrobodies (Combined focus map)
Method: single particle / : Dobert JP, Schaefer JHS, Dal Maso T, Socher E, Versees W, Moeller A, Zunke F, Arnold P

EMDB-50936:
Lysosomal transporting complex of beta-glucocerebrosidase (GCase) and lysosomal integral membrane protein 2 (LIMP-2) with bound Pro-macrobodies (consensus map)
Method: single particle / : Dobert JP, Schaefer JHS, Dal Maso T, Socher E, Versees W, Moeller A, Zunke F, Arnold P

EMDB-50937:
Lysosomal transporting complex of beta-glucocerebrosidase (GCase) and lysosomal integral membrane protein 2 (LIMP-2) with bound Pro-macrobodies (GCase local refinement map)
Method: single particle / : Dobert JP, Schaefer JHS, Dal Maso T, Socher E, Versees W, Moeller A, Zunke F, Arnold P

EMDB-50938:
Lysosomal transporting complex of beta-glucocerebrosidase (GCase) and lysosomal integral membrane protein 2 (LIMP-2) with bound Pro-macrobodies (LIMP-2 local refinement)
Method: single particle / : Dobert JP, Schaefer JHS, Dal Maso T, Socher E, Versees W, Moeller A, Zunke F, Arnold P

PDB-9fjf:
Lysosomal transporting complex of beta-glucocerebrosidase (GCase) and lysosomal integral membrane protein 2 (LIMP-2) with bound Pro-macrobodies (Combined focus map)
Method: single particle / : Dobert JP, Schaefer JHS, Dal Maso T, Socher E, Versees W, Moeller A, Zunke F, Arnold P

EMDB-50774:
MsbA in DDM inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50775:
MsbA in LMNG inward-facing narrow
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50776:
MsbA in LMNG inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50777:
MsbA in GDN inward-facing narrow
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50778:
MsbA in GDN inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50779:
MsbA in Triton inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50780:
MsbA in Triton inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50782:
MsbA in UDM inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50783:
MsbA in UDM inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50784:
MsbA in MSP1D1 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shearer D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50785:
MsbA in MSP1D1 (EPL:PC) Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50786:
MsbA in MSP1E3D1 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50787:
MsbA in MSP2N2 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50788:
MsbA in peptidisc inward-facing narrow (-) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50789:
MsbA in peptidisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50790:
MsbA in Amphipol A8-35 inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50791:
MsbA in Amphipol A8-35 inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50792:
MsbA in Amphipol 18 inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50793:
MsbA in Amphipol 18 inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50794:
MsbA in MSP2N2 Nanodisc inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuq:
MsbA in DDM inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fur:
MsbA in LMNG inward-facing narrow
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fus:
MsbA in LMNG inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fut:
MsbA in GDN inward-facing narrow
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuu:
MsbA in GDN inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuv:
MsbA in Triton inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuw:
MsbA in Triton inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuy:
MsbA in UDM inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuz:
MsbA in UDM inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fv0:
MsbA in MSP1D1 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shearer D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fv1:
MsbA in MSP1D1 (EPL:PC) Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fv2:
MsbA in MSP1E3D1 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fv3:
MsbA in MSP2N2 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

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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

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