automated 96 pin microarrayer Search Results


biogrid robot microarrayer  (BioRobotics Ltd)
90
BioRobotics Ltd biogrid robot microarrayer
Biogrid Robot Microarrayer, supplied by BioRobotics Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/biogrid robot microarrayer/product/BioRobotics Ltd
Average 90 stars, based on 1 article reviews
biogrid robot microarrayer - by Bioz Stars, 2026-05
90/100 stars
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96 well pin replicators  (Scinomix Inc)
90
Scinomix Inc 96 well pin replicators
96 Well Pin Replicators, supplied by Scinomix Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/96 well pin replicators/product/Scinomix Inc
Average 90 stars, based on 1 article reviews
96 well pin replicators - by Bioz Stars, 2026-05
90/100 stars
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pin microarrayer microsys 5100 cartesian  (Cartesian Technologies Inc)
90
Cartesian Technologies Inc pin microarrayer microsys 5100 cartesian
Pin Microarrayer Microsys 5100 Cartesian, supplied by Cartesian Technologies Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/pin microarrayer microsys 5100 cartesian/product/Cartesian Technologies Inc
Average 90 stars, based on 1 article reviews
pin microarrayer microsys 5100 cartesian - by Bioz Stars, 2026-05
90/100 stars
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biogrid robot microarrayer model  (BioRobotics Ltd)
90
BioRobotics Ltd biogrid robot microarrayer model
Biogrid Robot Microarrayer Model, supplied by BioRobotics Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/biogrid robot microarrayer model/product/BioRobotics Ltd
Average 90 stars, based on 1 article reviews
biogrid robot microarrayer model - by Bioz Stars, 2026-05
90/100 stars
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microarrays  (BioDot Inc)
90
BioDot Inc microarrays
Microarrays, supplied by BioDot Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/microarrays/product/BioDot Inc
Average 90 stars, based on 1 article reviews
microarrays - by Bioz Stars, 2026-05
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nhs-coated glass slide  (SCHOTT)
90
SCHOTT nhs-coated glass slide
Nhs Coated Glass Slide, supplied by SCHOTT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nhs-coated glass slide/product/SCHOTT
Average 90 stars, based on 1 article reviews
nhs-coated glass slide - by Bioz Stars, 2026-05
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nhs-coated glass slides nexterionhslide  (SCHOTT)
90
SCHOTT nhs-coated glass slides nexterionhslide
Nhs Coated Glass Slides Nexterionhslide, supplied by SCHOTT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nhs-coated glass slides nexterionhslide/product/SCHOTT
Average 90 stars, based on 1 article reviews
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48-pin silicon printhead assembly  (Parallel Synthesis Technologies)
90
Parallel Synthesis Technologies 48-pin silicon printhead assembly
48 Pin Silicon Printhead Assembly, supplied by Parallel Synthesis Technologies, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/48-pin silicon printhead assembly/product/Parallel Synthesis Technologies
Average 90 stars, based on 1 article reviews
48-pin silicon printhead assembly - by Bioz Stars, 2026-05
90/100 stars
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nanoprint lm60 microarrayer  (Arrayit Corporation)
90
Arrayit Corporation nanoprint lm60 microarrayer
Microarrays in microtiter plates. (a) <t>NanoPrint</t> <t>Microarrayer</t> spotting recombinant domains onto aldehyde-displaying glass substrates. (b) Attachment of microarrays to the bottom of a bottomless 96-well microtiter plate using an intervening silicone gasket. Panel b of this figure is reproduced, with permission, from the publisher37.
Nanoprint Lm60 Microarrayer, supplied by Arrayit Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nanoprint lm60 microarrayer/product/Arrayit Corporation
Average 90 stars, based on 1 article reviews
nanoprint lm60 microarrayer - by Bioz Stars, 2026-05
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funnel for silicon 48-pin printhead  (Parallel Synthesis Technologies)
90
Parallel Synthesis Technologies funnel for silicon 48-pin printhead
Microarrays in microtiter plates. (a) <t>NanoPrint</t> <t>Microarrayer</t> spotting recombinant domains onto aldehyde-displaying glass substrates. (b) Attachment of microarrays to the bottom of a bottomless 96-well microtiter plate using an intervening silicone gasket. Panel b of this figure is reproduced, with permission, from the publisher37.
Funnel For Silicon 48 Pin Printhead, supplied by Parallel Synthesis Technologies, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/funnel for silicon 48-pin printhead/product/Parallel Synthesis Technologies
Average 90 stars, based on 1 article reviews
funnel for silicon 48-pin printhead - by Bioz Stars, 2026-05
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no bottom microtiter plates  (Greiner Bio)
96
Greiner Bio no bottom microtiter plates
Using protein domain microarrays to identify and quantify domain–peptide binding interactions. (a) Fluorescent images of eight identical SH2/PTB domain microarrays in separate wells of a 96-well <t>microtiter</t> plate. The fluorescence arises from a trace amount of Cy5-labeled BSA that was added to each protein before arraying. (b) Fluorescent images of SH2/PTB microarrays, probed with eight concentrations of a 5(6)-TAMRA-labeled phosphopeptide derived from ErbB2 pY1139 (5(6)-TAMRA-PLTCSPQPEpYVNQPDVR). (c) Plots showing fluorescence as a function of peptide concentration for 28 high-affinity interactions. The data were fit to equation (1) to determine the KD. (d) PDZ domain microarrays probed with fluorescently labeled peptides. Each PDZ domain was spotted in quadruplicate in wells of 96-well microtiter plates (requiring four wells to include all domains). The Cy5 (red) images are used to identify PDZ domain spots. The green images depict arrays probed with fluorescently labeled peptides. (left, 5(6)-TAMRA-NNGSNAKAVETDV, a promiscuous peptide representing the C terminus of Kv1.4 and right, 5(6)-TAMRANNGQSPANIYYKV, a more selective peptide from Ephrin B1/2).(e) FP titration curves obtained for the array positives identified in (d). Panels a–c31 and d–e36 of this figure are reproduced with permission from the publishers.
No Bottom Microtiter Plates, supplied by Greiner Bio, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/no bottom microtiter plates/product/Greiner Bio
Average 96 stars, based on 1 article reviews
no bottom microtiter plates - by Bioz Stars, 2026-05
96/100 stars
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microtiter plates  (Greiner Bio)
96
Greiner Bio microtiter plates
Using protein domain microarrays to identify and quantify domain–peptide binding interactions. (a) Fluorescent images of eight identical SH2/PTB domain microarrays in separate wells of a 96-well <t>microtiter</t> plate. The fluorescence arises from a trace amount of Cy5-labeled BSA that was added to each protein before arraying. (b) Fluorescent images of SH2/PTB microarrays, probed with eight concentrations of a 5(6)-TAMRA-labeled phosphopeptide derived from ErbB2 pY1139 (5(6)-TAMRA-PLTCSPQPEpYVNQPDVR). (c) Plots showing fluorescence as a function of peptide concentration for 28 high-affinity interactions. The data were fit to equation (1) to determine the KD. (d) PDZ domain microarrays probed with fluorescently labeled peptides. Each PDZ domain was spotted in quadruplicate in wells of 96-well microtiter plates (requiring four wells to include all domains). The Cy5 (red) images are used to identify PDZ domain spots. The green images depict arrays probed with fluorescently labeled peptides. (left, 5(6)-TAMRA-NNGSNAKAVETDV, a promiscuous peptide representing the C terminus of Kv1.4 and right, 5(6)-TAMRANNGQSPANIYYKV, a more selective peptide from Ephrin B1/2).(e) FP titration curves obtained for the array positives identified in (d). Panels a–c31 and d–e36 of this figure are reproduced with permission from the publishers.
Microtiter Plates, supplied by Greiner Bio, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/microtiter plates/product/Greiner Bio
Average 96 stars, based on 1 article reviews
microtiter plates - by Bioz Stars, 2026-05
96/100 stars
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Image Search Results


Microarrays in microtiter plates. (a) NanoPrint Microarrayer spotting recombinant domains onto aldehyde-displaying glass substrates. (b) Attachment of microarrays to the bottom of a bottomless 96-well microtiter plate using an intervening silicone gasket. Panel b of this figure is reproduced, with permission, from the publisher37.

Journal: Nature protocols

Article Title: Quantifying protein-protein interactions in high throughput using protein domain microarrays

doi: 10.1038/nprot.2010.36

Figure Lengend Snippet: Microarrays in microtiter plates. (a) NanoPrint Microarrayer spotting recombinant domains onto aldehyde-displaying glass substrates. (b) Attachment of microarrays to the bottom of a bottomless 96-well microtiter plate using an intervening silicone gasket. Panel b of this figure is reproduced, with permission, from the publisher37.

Article Snippet: Custom-made aldehyde-coated 74.5 mm × 112.5 mm × 1 mm glass substrates (Thermo Fisher Scientific Inc., cat. no. HAR-1101-C60) ProPlate Gaskets (Grace Bio-labs, cat. no. 204971) 96-Well No-Bottom microtiter plates (Greiner Bio-One, cat. no. 655000) 96-well microtiter plates (Greiner Bio-One, cat. no. 650201) 384-well assay plates, black nonbinding, for FP assays (Corning, cat. no. 3575) 384-well microarray plates, for printing protein microarrays (Genetix, cat. no. X7022) Storage Mat III (Costar, cat. no. 3080) Disposable reagent reservoirs, sterile (VWR, cat. no. 82026-350) Deep-well 96-well microtiter plate (Costar, cat. no. 3960) 14 ml Polypropylene Round-Bottom Tube (Becton Dickinson, cat. no. 352059) NanoPrint LM60 Microarrayer (Arrayit Corporation) including cooling block for source plate and destination block designed for 16 microtiter-sized glass plates Silicon Microarray spotting pins (Parallel Synthesis Technologies Inc., cat. no. SMT-S75) 48-pin Silicon printhead assembly (Parallel Synthesis Technologies Inc., cat. no. SMT-H192) Funnel for silicon 48-pin printhead (Parallel Synthesis Technologies Inc., cat. no. SMT-F48) Fluorescence microarray scanner—Tecan LS400 Laser Scanner or similar (Tecan, cat. no. LS400) ArrayPro software or equivalent (Tecan) Matlab software or equivalent (The MathWorks) Peptide Synthesizer, Apex 396 or similar (Aapptec, cat. no. Apex 396-DC-FW-M) Kromasil 100 (5 μm) C18 semi-prep column (Peeke Scientific, cat. no. 100-5-C18 20 × 250) Kromasil 100 (5 μm) C18 analytical column (Peeke Scientific, cat. no. 100-5-C18 2.1 × 150) Superdex 200 10/300 GL column (Amersham Biosciences, cat. no 17-5175-01) Fluorescence polarization plate reader, Analyst AD 96:384 or similar (LJL Biosystems) Storage Mat Applicator (Corning, cat. no. 3081) Microtiter plate shaker (Lab Line, cat. no. 4625) Floor centrifuge, capable of holding both 500 and 30 ml tubes 2-L Baffled flasks (VWR , cat. no. 89083-696) 500-ml Centrifuge tubes (Sorvall, cat. no. 7-9957) 30-ml Oakridge centrifuge tubes (Thermo Fisher Scientific Inc., cat. no. 3119-0010) P1000 multichannel pipette (Rainin, cat. no. L1000) P200 multichannel pipette (Rainin, cat. no. L200) P10 multichannel pipette (Rainin, cat. no. L10) Mini Bunsen burner Agilent 1200 series HPLC with fraction collector

Techniques: Recombinant

Using protein domain microarrays to identify and quantify domain–peptide binding interactions. (a) Fluorescent images of eight identical SH2/PTB domain microarrays in separate wells of a 96-well microtiter plate. The fluorescence arises from a trace amount of Cy5-labeled BSA that was added to each protein before arraying. (b) Fluorescent images of SH2/PTB microarrays, probed with eight concentrations of a 5(6)-TAMRA-labeled phosphopeptide derived from ErbB2 pY1139 (5(6)-TAMRA-PLTCSPQPEpYVNQPDVR). (c) Plots showing fluorescence as a function of peptide concentration for 28 high-affinity interactions. The data were fit to equation (1) to determine the KD. (d) PDZ domain microarrays probed with fluorescently labeled peptides. Each PDZ domain was spotted in quadruplicate in wells of 96-well microtiter plates (requiring four wells to include all domains). The Cy5 (red) images are used to identify PDZ domain spots. The green images depict arrays probed with fluorescently labeled peptides. (left, 5(6)-TAMRA-NNGSNAKAVETDV, a promiscuous peptide representing the C terminus of Kv1.4 and right, 5(6)-TAMRANNGQSPANIYYKV, a more selective peptide from Ephrin B1/2).(e) FP titration curves obtained for the array positives identified in (d). Panels a–c31 and d–e36 of this figure are reproduced with permission from the publishers.

Journal: Nature protocols

Article Title: Quantifying protein-protein interactions in high throughput using protein domain microarrays

doi: 10.1038/nprot.2010.36

Figure Lengend Snippet: Using protein domain microarrays to identify and quantify domain–peptide binding interactions. (a) Fluorescent images of eight identical SH2/PTB domain microarrays in separate wells of a 96-well microtiter plate. The fluorescence arises from a trace amount of Cy5-labeled BSA that was added to each protein before arraying. (b) Fluorescent images of SH2/PTB microarrays, probed with eight concentrations of a 5(6)-TAMRA-labeled phosphopeptide derived from ErbB2 pY1139 (5(6)-TAMRA-PLTCSPQPEpYVNQPDVR). (c) Plots showing fluorescence as a function of peptide concentration for 28 high-affinity interactions. The data were fit to equation (1) to determine the KD. (d) PDZ domain microarrays probed with fluorescently labeled peptides. Each PDZ domain was spotted in quadruplicate in wells of 96-well microtiter plates (requiring four wells to include all domains). The Cy5 (red) images are used to identify PDZ domain spots. The green images depict arrays probed with fluorescently labeled peptides. (left, 5(6)-TAMRA-NNGSNAKAVETDV, a promiscuous peptide representing the C terminus of Kv1.4 and right, 5(6)-TAMRANNGQSPANIYYKV, a more selective peptide from Ephrin B1/2).(e) FP titration curves obtained for the array positives identified in (d). Panels a–c31 and d–e36 of this figure are reproduced with permission from the publishers.

Article Snippet: Custom-made aldehyde-coated 74.5 mm × 112.5 mm × 1 mm glass substrates (Thermo Fisher Scientific Inc., cat. no. HAR-1101-C60) ProPlate Gaskets (Grace Bio-labs, cat. no. 204971) 96-Well No-Bottom microtiter plates (Greiner Bio-One, cat. no. 655000) 96-well microtiter plates (Greiner Bio-One, cat. no. 650201) 384-well assay plates, black nonbinding, for FP assays (Corning, cat. no. 3575) 384-well microarray plates, for printing protein microarrays (Genetix, cat. no. X7022) Storage Mat III (Costar, cat. no. 3080) Disposable reagent reservoirs, sterile (VWR, cat. no. 82026-350) Deep-well 96-well microtiter plate (Costar, cat. no. 3960) 14 ml Polypropylene Round-Bottom Tube (Becton Dickinson, cat. no. 352059) NanoPrint LM60 Microarrayer (Arrayit Corporation) including cooling block for source plate and destination block designed for 16 microtiter-sized glass plates Silicon Microarray spotting pins (Parallel Synthesis Technologies Inc., cat. no. SMT-S75) 48-pin Silicon printhead assembly (Parallel Synthesis Technologies Inc., cat. no. SMT-H192) Funnel for silicon 48-pin printhead (Parallel Synthesis Technologies Inc., cat. no. SMT-F48) Fluorescence microarray scanner—Tecan LS400 Laser Scanner or similar (Tecan, cat. no. LS400) ArrayPro software or equivalent (Tecan) Matlab software or equivalent (The MathWorks) Peptide Synthesizer, Apex 396 or similar (Aapptec, cat. no. Apex 396-DC-FW-M) Kromasil 100 (5 μm) C18 semi-prep column (Peeke Scientific, cat. no. 100-5-C18 20 × 250) Kromasil 100 (5 μm) C18 analytical column (Peeke Scientific, cat. no. 100-5-C18 2.1 × 150) Superdex 200 10/300 GL column (Amersham Biosciences, cat. no 17-5175-01) Fluorescence polarization plate reader, Analyst AD 96:384 or similar (LJL Biosystems) Storage Mat Applicator (Corning, cat. no. 3081) Microtiter plate shaker (Lab Line, cat. no. 4625) Floor centrifuge, capable of holding both 500 and 30 ml tubes 2-L Baffled flasks (VWR , cat. no. 89083-696) 500-ml Centrifuge tubes (Sorvall, cat. no. 7-9957) 30-ml Oakridge centrifuge tubes (Thermo Fisher Scientific Inc., cat. no. 3119-0010) P1000 multichannel pipette (Rainin, cat. no. L1000) P200 multichannel pipette (Rainin, cat. no. L200) P10 multichannel pipette (Rainin, cat. no. L10) Mini Bunsen burner Agilent 1200 series HPLC with fraction collector

Techniques: Binding Assay, Fluorescence, Labeling, Phospho-proteomics, Derivative Assay, Concentration Assay, Titration

Microarrays in microtiter plates. (a) NanoPrint Microarrayer spotting recombinant domains onto aldehyde-displaying glass substrates. (b) Attachment of microarrays to the bottom of a bottomless 96-well microtiter plate using an intervening silicone gasket. Panel b of this figure is reproduced, with permission, from the publisher37.

Journal: Nature protocols

Article Title: Quantifying protein-protein interactions in high throughput using protein domain microarrays

doi: 10.1038/nprot.2010.36

Figure Lengend Snippet: Microarrays in microtiter plates. (a) NanoPrint Microarrayer spotting recombinant domains onto aldehyde-displaying glass substrates. (b) Attachment of microarrays to the bottom of a bottomless 96-well microtiter plate using an intervening silicone gasket. Panel b of this figure is reproduced, with permission, from the publisher37.

Article Snippet: Custom-made aldehyde-coated 74.5 mm × 112.5 mm × 1 mm glass substrates (Thermo Fisher Scientific Inc., cat. no. HAR-1101-C60) ProPlate Gaskets (Grace Bio-labs, cat. no. 204971) 96-Well No-Bottom microtiter plates (Greiner Bio-One, cat. no. 655000) 96-well microtiter plates (Greiner Bio-One, cat. no. 650201) 384-well assay plates, black nonbinding, for FP assays (Corning, cat. no. 3575) 384-well microarray plates, for printing protein microarrays (Genetix, cat. no. X7022) Storage Mat III (Costar, cat. no. 3080) Disposable reagent reservoirs, sterile (VWR, cat. no. 82026-350) Deep-well 96-well microtiter plate (Costar, cat. no. 3960) 14 ml Polypropylene Round-Bottom Tube (Becton Dickinson, cat. no. 352059) NanoPrint LM60 Microarrayer (Arrayit Corporation) including cooling block for source plate and destination block designed for 16 microtiter-sized glass plates Silicon Microarray spotting pins (Parallel Synthesis Technologies Inc., cat. no. SMT-S75) 48-pin Silicon printhead assembly (Parallel Synthesis Technologies Inc., cat. no. SMT-H192) Funnel for silicon 48-pin printhead (Parallel Synthesis Technologies Inc., cat. no. SMT-F48) Fluorescence microarray scanner—Tecan LS400 Laser Scanner or similar (Tecan, cat. no. LS400) ArrayPro software or equivalent (Tecan) Matlab software or equivalent (The MathWorks) Peptide Synthesizer, Apex 396 or similar (Aapptec, cat. no. Apex 396-DC-FW-M) Kromasil 100 (5 μm) C18 semi-prep column (Peeke Scientific, cat. no. 100-5-C18 20 × 250) Kromasil 100 (5 μm) C18 analytical column (Peeke Scientific, cat. no. 100-5-C18 2.1 × 150) Superdex 200 10/300 GL column (Amersham Biosciences, cat. no 17-5175-01) Fluorescence polarization plate reader, Analyst AD 96:384 or similar (LJL Biosystems) Storage Mat Applicator (Corning, cat. no. 3081) Microtiter plate shaker (Lab Line, cat. no. 4625) Floor centrifuge, capable of holding both 500 and 30 ml tubes 2-L Baffled flasks (VWR , cat. no. 89083-696) 500-ml Centrifuge tubes (Sorvall, cat. no. 7-9957) 30-ml Oakridge centrifuge tubes (Thermo Fisher Scientific Inc., cat. no. 3119-0010) P1000 multichannel pipette (Rainin, cat. no. L1000) P200 multichannel pipette (Rainin, cat. no. L200) P10 multichannel pipette (Rainin, cat. no. L10) Mini Bunsen burner Agilent 1200 series HPLC with fraction collector

Techniques: Recombinant

Using protein domain microarrays to identify and quantify domain–peptide binding interactions. (a) Fluorescent images of eight identical SH2/PTB domain microarrays in separate wells of a 96-well microtiter plate. The fluorescence arises from a trace amount of Cy5-labeled BSA that was added to each protein before arraying. (b) Fluorescent images of SH2/PTB microarrays, probed with eight concentrations of a 5(6)-TAMRA-labeled phosphopeptide derived from ErbB2 pY1139 (5(6)-TAMRA-PLTCSPQPEpYVNQPDVR). (c) Plots showing fluorescence as a function of peptide concentration for 28 high-affinity interactions. The data were fit to equation (1) to determine the KD. (d) PDZ domain microarrays probed with fluorescently labeled peptides. Each PDZ domain was spotted in quadruplicate in wells of 96-well microtiter plates (requiring four wells to include all domains). The Cy5 (red) images are used to identify PDZ domain spots. The green images depict arrays probed with fluorescently labeled peptides. (left, 5(6)-TAMRA-NNGSNAKAVETDV, a promiscuous peptide representing the C terminus of Kv1.4 and right, 5(6)-TAMRANNGQSPANIYYKV, a more selective peptide from Ephrin B1/2).(e) FP titration curves obtained for the array positives identified in (d). Panels a–c31 and d–e36 of this figure are reproduced with permission from the publishers.

Journal: Nature protocols

Article Title: Quantifying protein-protein interactions in high throughput using protein domain microarrays

doi: 10.1038/nprot.2010.36

Figure Lengend Snippet: Using protein domain microarrays to identify and quantify domain–peptide binding interactions. (a) Fluorescent images of eight identical SH2/PTB domain microarrays in separate wells of a 96-well microtiter plate. The fluorescence arises from a trace amount of Cy5-labeled BSA that was added to each protein before arraying. (b) Fluorescent images of SH2/PTB microarrays, probed with eight concentrations of a 5(6)-TAMRA-labeled phosphopeptide derived from ErbB2 pY1139 (5(6)-TAMRA-PLTCSPQPEpYVNQPDVR). (c) Plots showing fluorescence as a function of peptide concentration for 28 high-affinity interactions. The data were fit to equation (1) to determine the KD. (d) PDZ domain microarrays probed with fluorescently labeled peptides. Each PDZ domain was spotted in quadruplicate in wells of 96-well microtiter plates (requiring four wells to include all domains). The Cy5 (red) images are used to identify PDZ domain spots. The green images depict arrays probed with fluorescently labeled peptides. (left, 5(6)-TAMRA-NNGSNAKAVETDV, a promiscuous peptide representing the C terminus of Kv1.4 and right, 5(6)-TAMRANNGQSPANIYYKV, a more selective peptide from Ephrin B1/2).(e) FP titration curves obtained for the array positives identified in (d). Panels a–c31 and d–e36 of this figure are reproduced with permission from the publishers.

Article Snippet: Custom-made aldehyde-coated 74.5 mm × 112.5 mm × 1 mm glass substrates (Thermo Fisher Scientific Inc., cat. no. HAR-1101-C60) ProPlate Gaskets (Grace Bio-labs, cat. no. 204971) 96-Well No-Bottom microtiter plates (Greiner Bio-One, cat. no. 655000) 96-well microtiter plates (Greiner Bio-One, cat. no. 650201) 384-well assay plates, black nonbinding, for FP assays (Corning, cat. no. 3575) 384-well microarray plates, for printing protein microarrays (Genetix, cat. no. X7022) Storage Mat III (Costar, cat. no. 3080) Disposable reagent reservoirs, sterile (VWR, cat. no. 82026-350) Deep-well 96-well microtiter plate (Costar, cat. no. 3960) 14 ml Polypropylene Round-Bottom Tube (Becton Dickinson, cat. no. 352059) NanoPrint LM60 Microarrayer (Arrayit Corporation) including cooling block for source plate and destination block designed for 16 microtiter-sized glass plates Silicon Microarray spotting pins (Parallel Synthesis Technologies Inc., cat. no. SMT-S75) 48-pin Silicon printhead assembly (Parallel Synthesis Technologies Inc., cat. no. SMT-H192) Funnel for silicon 48-pin printhead (Parallel Synthesis Technologies Inc., cat. no. SMT-F48) Fluorescence microarray scanner—Tecan LS400 Laser Scanner or similar (Tecan, cat. no. LS400) ArrayPro software or equivalent (Tecan) Matlab software or equivalent (The MathWorks) Peptide Synthesizer, Apex 396 or similar (Aapptec, cat. no. Apex 396-DC-FW-M) Kromasil 100 (5 μm) C18 semi-prep column (Peeke Scientific, cat. no. 100-5-C18 20 × 250) Kromasil 100 (5 μm) C18 analytical column (Peeke Scientific, cat. no. 100-5-C18 2.1 × 150) Superdex 200 10/300 GL column (Amersham Biosciences, cat. no 17-5175-01) Fluorescence polarization plate reader, Analyst AD 96:384 or similar (LJL Biosystems) Storage Mat Applicator (Corning, cat. no. 3081) Microtiter plate shaker (Lab Line, cat. no. 4625) Floor centrifuge, capable of holding both 500 and 30 ml tubes 2-L Baffled flasks (VWR , cat. no. 89083-696) 500-ml Centrifuge tubes (Sorvall, cat. no. 7-9957) 30-ml Oakridge centrifuge tubes (Thermo Fisher Scientific Inc., cat. no. 3119-0010) P1000 multichannel pipette (Rainin, cat. no. L1000) P200 multichannel pipette (Rainin, cat. no. L200) P10 multichannel pipette (Rainin, cat. no. L10) Mini Bunsen burner Agilent 1200 series HPLC with fraction collector

Techniques: Binding Assay, Fluorescence, Labeling, Phospho-proteomics, Derivative Assay, Concentration Assay, Titration

Microarrays in microtiter plates. (a) NanoPrint Microarrayer spotting recombinant domains onto aldehyde-displaying glass substrates. (b) Attachment of microarrays to the bottom of a bottomless 96-well microtiter plate using an intervening silicone gasket. Panel b of this figure is reproduced, with permission, from the publisher37.

Journal: Nature protocols

Article Title: Quantifying protein-protein interactions in high throughput using protein domain microarrays

doi: 10.1038/nprot.2010.36

Figure Lengend Snippet: Microarrays in microtiter plates. (a) NanoPrint Microarrayer spotting recombinant domains onto aldehyde-displaying glass substrates. (b) Attachment of microarrays to the bottom of a bottomless 96-well microtiter plate using an intervening silicone gasket. Panel b of this figure is reproduced, with permission, from the publisher37.

Article Snippet: Custom-made aldehyde-coated 74.5 mm × 112.5 mm × 1 mm glass substrates (Thermo Fisher Scientific Inc., cat. no. HAR-1101-C60) ProPlate Gaskets (Grace Bio-labs, cat. no. 204971) 96-Well No-Bottom microtiter plates (Greiner Bio-One, cat. no. 655000) 96-well microtiter plates (Greiner Bio-One, cat. no. 650201) 384-well assay plates, black nonbinding, for FP assays (Corning, cat. no. 3575) 384-well microarray plates, for printing protein microarrays (Genetix, cat. no. X7022) Storage Mat III (Costar, cat. no. 3080) Disposable reagent reservoirs, sterile (VWR, cat. no. 82026-350) Deep-well 96-well microtiter plate (Costar, cat. no. 3960) 14 ml Polypropylene Round-Bottom Tube (Becton Dickinson, cat. no. 352059) NanoPrint LM60 Microarrayer (Arrayit Corporation) including cooling block for source plate and destination block designed for 16 microtiter-sized glass plates Silicon Microarray spotting pins (Parallel Synthesis Technologies Inc., cat. no. SMT-S75) 48-pin Silicon printhead assembly (Parallel Synthesis Technologies Inc., cat. no. SMT-H192) Funnel for silicon 48-pin printhead (Parallel Synthesis Technologies Inc., cat. no. SMT-F48) Fluorescence microarray scanner—Tecan LS400 Laser Scanner or similar (Tecan, cat. no. LS400) ArrayPro software or equivalent (Tecan) Matlab software or equivalent (The MathWorks) Peptide Synthesizer, Apex 396 or similar (Aapptec, cat. no. Apex 396-DC-FW-M) Kromasil 100 (5 μm) C18 semi-prep column (Peeke Scientific, cat. no. 100-5-C18 20 × 250) Kromasil 100 (5 μm) C18 analytical column (Peeke Scientific, cat. no. 100-5-C18 2.1 × 150) Superdex 200 10/300 GL column (Amersham Biosciences, cat. no 17-5175-01) Fluorescence polarization plate reader, Analyst AD 96:384 or similar (LJL Biosystems) Storage Mat Applicator (Corning, cat. no. 3081) Microtiter plate shaker (Lab Line, cat. no. 4625) Floor centrifuge, capable of holding both 500 and 30 ml tubes 2-L Baffled flasks (VWR , cat. no. 89083-696) 500-ml Centrifuge tubes (Sorvall, cat. no. 7-9957) 30-ml Oakridge centrifuge tubes (Thermo Fisher Scientific Inc., cat. no. 3119-0010) P1000 multichannel pipette (Rainin, cat. no. L1000) P200 multichannel pipette (Rainin, cat. no. L200) P10 multichannel pipette (Rainin, cat. no. L10) Mini Bunsen burner Agilent 1200 series HPLC with fraction collector

Techniques: Recombinant