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Consumables

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Consumable name
Type
Supplier
Description
Consumable stocks
Virus 1Virus constructStanford Vector Core--
UM22-600 Optic fiber designThorlabsØ600 µm Core Solarization-Resistant, Polyimide-Coated Multimode Fiber-
UM22-400 Optic fiber designThorlabsØ400 µm Core Polyimide-Coated Multimode Fibers-
UM22-300 Optic fiber designThorlabsØ300 µm Core Solarization-Resistant, Polyimide-Coated Multimode Fiber-
UM22-200Optic fiber designThorlabsØ200 µm Core Polyimide-Coated Multimode Fibers-
UM22-100Optic fiber designThorlabsØ100 µm Core Solarization-Resistant, Polyimide-Coated Multimode Fiber-
P2-64chSilicon probe designCambridge Neurotech<p>Cambridge Neurotech P-series, 64ch, 4 shanks, poly 2, 250µm shank spacing</p>-
P2-32chSilicon probe designCambridge Neurotech<p>Cambridge Neurotech P-series, 32ch, 2 shanks, poly 2, 250µm shank spacing</p>-
P1-64chSilicon probe designCambridge NeurotechCambridge Neurotech P-series, 64ch, 4 shanks, poly 2, 250µm shank spacing-
P1-32chSilicon probe designCambridge NeurotechCambridge Neurotech P-series, 32ch, 2 shanks, poly 2, 250µm shank spacing-
P128-5Silicon probe designCambridge Neurotech4 cortical channels situated at each shank above the main channels-
P1-16chSilicon probe designCambridge NeurotechCambridge Neurotech P-series, 16ch, 1 shank, poly 2-
Other virus constructVirus constructOther-1
Other single wire electrodeSingle wire electrodeOtherThis entry can be used temporarily when an option is missing allowing you to continue your work while an entry is being approved.-
Other silicon probe designSilicon probe designOtherThis entry can be used temporarily when an option is missing allowing you to continue your work while an entry is being approved.-
Other optic fiber designOptic fiber designOtherThis entry can be used temporarily when an option is missing allowing you to continue your work while an entry is being approved.-
Neuropixels 2.0 DummySilicon probe designIMEC-1
Neuropixels 2.0Silicon probe designIMEC-2
Neuropixels 1.0 Probe - Phase 3B2Silicon probe designIMEC960 channels in total to select from1
Neuropixels 1.0 DummySilicon probe designIMEC960 channels in total to select from1
MFC_400/430-0.48_2.6mm_MF2.5_FLTOptic fiber designDoric LensesOptic Fiber Glass: Core diameter: 400um - Outer diameter: 430um - NA: 0.48 Length: 2.6mm Metal Ferule OD: 2.5mm Flat tip-
H4Silicon probe designCambridge NeurotechCambridge Neurotech H4, 32ch, 1 shanks, linear, 25µm spacing-
H3Silicon probe designCambridge NeurotechCambridge Neurotech H3, 64ch, 1 shank, linear, 20µm spacing-
H2Silicon probe designCambridge NeurotechCambridge Neurotech H2, 64ch, 2 shanks, linear, 25µm spacing, 250µm shank spacing-
H1Silicon probe designCambridge NeurotechCambridge Neurotech H1, 64ch, 2 shanks, high density sites, poly 4, 250µm shank spacing-
F-seriesSilicon probe designCambridge NeurotechCambridge Neurotech F-series, 64ch, 6 shank, poly 2, 200µm shank spacing-
Flexible_Polyimide_64ch_poly3Silicon probe designEuisik Yoon, University of MichiganPolyimide probe-
FG600UEAOptic fiber designThorlabsØ600 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG600LEAOptic fiber designThorlabsØ600 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG400UEP Optic fiber designThorlabsØ400 µm Core Polyimide-Coated Multimode Fibers-
FG400UEAOptic fiber designThorlabsØ400 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG400LEPOptic fiber designThorlabsØ400 µm Core Polyimide-Coated Multimode Fibers-
FG400LEAOptic fiber designThorlabsØ400 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG200UEP Optic fiber designThorlabsØ200 µm Core Polyimide-Coated Multimode Fibers-
FG200UEAOptic fiber designThorlabsØ200 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG200LEPOptic fiber designThorlabsØ200 µm Core Polyimide-Coated Multimode Fibers-
FG200LEAOptic fiber designThorlabsØ200 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG105UCAOptic fiber designThorlabsØ105 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA. Bare fiber. Multimode Fiber, High OH, Ø105 µm Core, 250 - 1200 nm-
FG105LCAOptic fiber designThorlabsØ105 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA. Bare fiber. Multimode Fiber, 0.22 NA, Low OH, Ø105 µm Core, 400 - 2400 nm-
FG1000UEAOptic fiber designThorlabsØ1000 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG1000LEAOptic fiber designThorlabsØ1000 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG050LGAOptic fiber designThorlabsØ50 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
EMG wireSingle wire electrodeScience Products--
EEG screwsSingle wire electrodeNeuroTekSmall EEG electrode which consists of a stainless steel jeweler’s screw welded to a stainless steel lead contact. Electrodes can be easily turned into holes that have been pre-drilled in the skull. The common screw 000-120 thread and ~0.8mm OD, with a length of 2-3mm.-
E2-64chSilicon probe designCambridge Neurotech<p>Cambridge Neurotech E-series, 64ch, 4 shanks, edge, 250µm shank spacing</p>-
E2-16chSilicon probe designCambridge Neurotech<p>Cambridge Neurotech E-series, 16ch, 1 shank, edge</p>-
E1-64chSilicon probe designCambridge NeurotechCambridge Neurotech E-series, 64ch, 4 shanks, edge, 250µm shank spacing-
E1-32chSilicon probe designCambridge NeurotechCambridge Neurotech E-series, 32ch, 2 shanks, edge, 250µm shank spacing-
E1-16chSilicon probe designCambridge NeurotechCambridge Neurotech E-series, 16ch, 1 shank, edge-
Buzsaki A4x16_poly3_6mm20s_200_160Silicon probe designNeuroNexusNeuroNexus 64ch, 4 shanks, poly 3, 200µm shank spacing (Buzsaki Poly 3 custom design a4x16_poly3_6mm20s_200_160)-
Buzsaki64LSilicon probe designNeuroNexusNeuroNexus 64ch, 8 shanks, staggered, buzsaki-style, 200µm shank spacing, 10mm shanks (Buzsaki64L)-
Buzsaki64Silicon probe designNeuroNexusNeuroNexus 64ch, 8 shanks, staggered, buzsaki-style, 200µm shank spacing (Buzsaki64)-
Buzsaki 5x12Silicon probe designNeuroNexus*This probe has an non-uniform layout. See company catalog for more information: 2018ProbeCatalog_20180515_Web, p.55 There is a 800µm section above the staggered tip on the center shank with 4 sites in a linear layout, spaced 200µm apart-
Buzsaki32LSilicon probe designNeuroNexusNeuroNexus 32ch, 4 shanks, staggered, buzsaki-style, 200µm shank spacing, 10mm shanks (Buzsaki32L)-
Buzsaki32Silicon probe designNeuroNexusNeuroNexus 32ch, 8 shanks, staggered, buzsaki-style, 200µm shank spacing (Buzsaki32)-
Buzsaki256Silicon probe designNeuroNexusNeuroNexus 256ch, 8 shank, linear 50µm vertical pitch, 300µm shank spacing (Buzsaki256)-
Buzsaki16Silicon probe designNeuroNexusdistance between the first two sites: 20µm-
AAV-TRetight-BPB19GVirus constructUNC Vector CoreMonosynaptic Tracing-
AAV-synP-DIO-sTpE  (Addgene 52474)Virus constructUNC Vector CoreMonosynaptic Tracing-
AAV-synP-DIO-sTpEpB  (Addgene 52473)Virus constructUNC Vector CoreMonosynaptic Tracing-
AAV-Syn-Flex-STPEPtTAVirus constructUNC Vector CoreMonosynaptic Tracing-
AAV-Syn-CsChR-GFPVirus constructUNC Vector CoreNeural Activators - Chronos/Chrimson (no AAV6)-
AAV-Syn-CoChR-GFPVirus constructUNC Vector CoreNeural Activators - Chronos/Chrimson (no AAV6)-
AAV-Syn-Chronos-GFPVirus constructUNC Vector CoreNeural Activators - Chronos/Chrimson (no AAV6)-
AAV-Syn-ChrimsonR-tdTomatoVirus constructUNC Vector CoreNeural Activators - Chronos/Chrimson (no AAV6)-
AAV-nEF-Con/Fon hChR2(H134R)-EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-nEF-Con/Foff hChR2(H134R)-EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-nEF-Coff/Fon hChR2(H134R)-EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-hThy1-eNpHR3.0-EYFP Virus constructUNC Vector CoreThird-generation Optogenetic Inhibition: eNpHR3.0-
AAV-hSyn-SwiChRCA-TS-EYFPVirus constructUNC Vector CoreSwiChRCA  (AAV2, 5, DJ)-
AAV-hSyn-OptoD1-EYFPVirus constructUNC Vector CoreOpto-XRs  (AAV5)-
AAV-hSyn-OptoB2-EYFPVirus constructUNC Vector CoreOpto-XRs  (AAV5)-
AAV-hSyn-OptoA1-EYFPVirus constructUNC Vector CoreOpto-XRs  (AAV5)-
AAV-hSyn-mCherryVirus constructUNC Vector CoreControl Fluorophores-
AAV-hSyn-Jaws-KGC-GFP-ER2Virus constructUNC Vector CoreNeural Silencers - Jaws (Halo57) (no AAV6)-
AAV-hSyn-Jaws-GFP-ER2Virus constructUNC Vector CoreNeural Silencers - Jaws (Halo57) (no AAV6)-
AAV-hSyn-hChR2(H134R)-mCherry Virus constructUNC Vector CoreOptical Excitation: ChR5-
AAV-hSyn-hChR2(H134R)-EYFP Virus constructUNC Vector CoreOptical Excitation: ChR4-
AAV-hSyn-Flex-Jaws-KGC-GFP-ER2(AAV8 only currently)Virus constructUNC Vector CoreNeural Silencers - Jaws (Halo57) (no AAV6)-
AAV-hSyn-FLEX-CoChR-GFPVirus constructUNC Vector CoreNeural Activators - FLEX Chronos/Chrimson (no AAV6)-
AAV-hSyn-FLEX-Chronos-GFPVirus constructUNC Vector CoreNeural Activators - FLEX Chronos/Chrimson (no AAV6)-
AAV-hSyn-FLEX-ChrimsonR-tdTomatoVirus constructUNC Vector CoreNeural Activators - FLEX Chronos/Chrimson (no AAV6)-
AAV-hSyn-EYFP Virus constructUNC Vector CoreControl Fluorophores-
AAV-hSyn-eNpHR3.0-mCherry Virus constructUNC Vector CoreThird-generation Optogenetic Inhibition: eNpHR3.0-
AAV-hSyn-eNpHR3.0-EYFP Virus constructUNC Vector CoreThird-generation Optogenetic Inhibition: eNpHR3.0-
AAV-hSyn-eArch3.0-EYFPVirus constructUNC Vector CoreThird-generation Optogenetic Inhibition: Arch 3.0 & ArchT 3.0-
AAV-hSyn-Con/Fon hChR2(H134R)-EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-hSyn-Con/Fon EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-hSyn-Con/Foff hChR2(H134R)-EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-hSyn-Con/Foff EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-hSyn-Coff/Fon hChR2(H134R)-EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-hSyn-Coff/Fon EYFP-WPREVirus constructUNC Vector CoreINTRSECT (AAV5 & DJ)-
AAV-hSyn-ChR2(E123A)-EYFPVirus constructUNC Vector CoreSecond-generation Ultrafast Optogenetic Control-
AAV-hSyn-C1V1(t/t)-TS-p2A-EYFPVirus constructUNC Vector CoreC1V1(t/t)  (AAV2, 5, DJ)-
AAV-hSyn-C1V1(t/t)-TS-EYFPVirus constructUNC Vector CoreC1V1(t/t)  (AAV2, 5, DJ)-
AAV-GFAP-hChR2(H134R)-mCherryVirus constructUNC Vector CoreOptical Excitation: ChR2-GFAP (AAV1, 2, 5 & 8)-
AAV-GFAP-hChR2(H134R)-EYFPVirus constructUNC Vector CoreOptical Excitation: ChR2-GFAP (AAV1, 2, 5 & 8)-
AAV-GFAP104-mCherryVirus constructUNC Vector CoreGFAP Vectors (AAV8)-
AAV-GFAP104-ChR2-mCherryVirus constructUNC Vector CoreGFAP Vectors (AAV8)-
AAV-EF1a-mCherry-IRES-WGA-Cre Virus constructUNC Vector CoreTranssynaptic Tracers: WGA-Cre (AAV2, 5 & 8)-

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Consumables

Consumables refer to items that are intended to be used once or have a limited lifespan before they need to be replaced. These include materials and products that are consumed or depleted during the course of experiments or procedures. Consumables are critical for maintaining the integrity, accuracy, and reproducibility of scientific experiments. In BrainSTEM, consumables are a shared model across users.

Types of consumable

  • Optic fiber designs: Thin, flexible fibers used for transmitting light signals, crucial for optical neural imaging and optogenetic manipulation of neurons.
  • Silicon probe designs: Microfabricated devices designed for recording or stimulating neural activity, allowing for high-resolution interfacing with neural tissue.
  • Virus constructs: Genetically engineered viruses used for delivering genes into neurons, enabling the study of gene function or the manipulation of neural activity.
  • Wire electrodes: Thin metal wires used for recording electrical signals from or delivering electrical stimulation to neurons, essential for electrophysiological studies.

Submission process

Anyone can submit consumables or submit changes to existing ones, but all submissions must be approved before they are available for usage. Please see existing entries for examples as to what to submit.

Fields

  • Name: The name of the consumable (required; must be unique).
  • Type: The type of consumable - see available types above (required).
  • Supplier: The supplier of the consumable (required).
  • Description: A description of the consumable.
  • Type specific fields: Each type has custom fields (required).

Permissions

Once a entry has been approved it becomes available to everyone.

API Access

The API allows for programmable access, enabling you to read, edit, and delete entries through the API. For details about the fields and data structure, refer to the Consumables API endpoint documentation.