Mithras LB 940

Multimode Microplate Reader

MithrasLB 940Multimode MicroplateReader

detect and identify

BERTHOLD TECHNOLOGIES GmbH & Co. KG

P.O. Box 100 16375312 Bad WildbadGermany

Phone: +49 7081 177-0Fax: +49 7081 177-100E-mail: Bio@Berthold.comInternet: www.Berthold.com/bio

Mithra

s LB

940 ·

10-2

007·3

000 ·

Id.N

r. 3

8099 P

R2 R

ev.0

2

Detection Units Low-noise photomultiplier tubein single photon counting mode,spectral range: 340 - 650 nm; PMT in single photon counting modewith extended range: 340 – 800 nm;photo diode: 200 - 1000nm

Excitation Sources halogen lamp, 75 W (340-700 nm);Xenon flash lamp (TRF models);laser, 680 nm (AlphaScreenTM option)

Excitation Filters 355 nm, 485 nm; 405 nm, 450 nm, 490 nm, 620 nm(with Absorbance option)

Emission Filters 460 nm, 535 nm; 400 nm, 515 nm, 480 nm, 530 nm(with BRET option); 615 nm (TRF models)615, 620, 665 nm (TR-FRET models)568 nm (AlphaScreenTM option)

Measurement LuminescenceTechnologies Top-reading Fluorescence

Bottom-reading Fluorescence (option)Fluorescence Polarisation (option)Time-Resolved Fluorescence (option)Time-Resolved FRET (option)Absorbance (option)AlphaScreen™ (option)BRET (option)

SensitivityLuminescence <6 amol ATP; <3 zmol firefly luciferase,

equals less then 800 moleculesFluorescence <1 fmol FITCAbsorbance linear range 0-3.5 OD

accuracy <2 % cv (@ 2.5 OD)Time-Resolved 6 amol Eu (96 well),Fluorescence 2 amol Eu (384 well)FluorescencePolarisation cv 4.4 % with 1 nM FluoresceinAlphaScreen™ <12.5 ng standard beads

Dynamic Range >6 orders of magnitudeCrosstalk low crosstalk through

crosstalk reduction design: 5 x 10-6

Injection Unit up to 4 injectors (variable volume:10–100 µL), JET Injection technlogyinjection into 384 well plates

Plate formats with all 6 well to 1536 well microplatesPlate height with outer dimensions: 86.0x128.2 mmadjustment (option) (WxL); plate height: 8.0– 22.2 mm

Petri dishes, Terasaki Plates, filterswith resp. adapters (option)

Plate formats all 96 and 384 well microplates withwithout Plate height outer dimensions: 86.0x128.2 (WxL);adjustment plate height: 13.9–15.1 mmTemperature Control +5°C above RT to 42 °C (option),

includes cooling unit for PMTRobot BUTLER LB 930 (option)Stacker Stacker LB 931 (option)

Interface serial RS232, 9 pinPC Operating System Win 98, Win 2000, Win NT,

Win XP, Win VistaPC Requirements Pentium processor, 500 MHz

(or better), CD ROM drive, display1024x768 (or better), serial port,parallel port, USB

Software MikroWin 2000Power Supply 110 - 240 V; 50 /60 Hz; 240 VARegulations CE, UL, CSACertifications DLRTM

Temperature Range storage: 0° - 40° Coperation: 15° - 35° C

Humidity 10 – 85%, non condensingDimensions 472 x 494 x 374 mm

(WxDxH), incl. injectorsWeight 30 – 45 kg (depending on configuration)

Operation ModesIntegral measurement 0.1 – 600 secKinetics measurement total time up to 24 h Repeated measurement total time up to 7 daysPlate repeats up to 50,000Delay up to 600 secScanning up to 10,000 individual meas. pointsDispensing with 4 independently controlled

variable volume injectorsShaking 3 modes, variable amplitude and speed

Default parameter files, e.g. BRET, BRET2, Dual-Luciferase® andDual-Glo™ reporter gene, Chroma-GloTM, TRF, TR-FRET, Fluorescein,Umbelliferone, AlphaScreen™, FRET, Fluorescence Polarisation, kinetics and repeated type, ratiometric assays.

Patents: EP 0 523 522 ; EP 1 279 946 (pending); DE 4 123 818 ;DE 10 136 863 (pending); 6,949,754 US

AlphaScreen™ is a trademark of PerkinElmer. DLR®, Dual-Luciferase®, Dual-Glo® and Chroma-GloTM

are registered trademarks of Promega. HTRF® is a trademark of Cisbio.

Technical Specification

detect and identify

Dedicated Optical Path System (DOPS)The Mithras operates with a dedicated optical path system (DOPS): for each reading technology there is anoptimum optical system guaranteeing high sensitivityand wide dynamic range for all measurements. The pathselection is done automatically by the instrument based on the user-selectedreading parameters. Even multiple measurement technologies may be selected within a run. Detection Limits of less than 6 attomolATP in luminescence mode and less than2 attomol Europium in time-resolvedfluorescence mode are impressive ex-amples for the outstanding performance.

Filters – the better choice for most applicationsThe Mithras LB 940 is a filter-based system to extract the greatest benefits from the Dedicated Optical Path System (DOPS) as only filters with hightransmission characteristics ensure best sensitivity.BRET and other colour luminescence applicationsare only possible with an extremely efficient opticalsystem together with appropriate filters as used inthe Mithras readers. Especially when little emissionlight is present as in fluorescence polarization and time-resolved fluorescence measurements the readingscan be performed with higher sensitivity and better reproducibility using appropriate filters.

On top of that fluorescence ratio kinetic measurements– a popular approach for receptor and ion channel monitoring – need fast wavelength switching only filter-based systems can provide. The Mithras microplatereaders can work with up to 20 excitation and more than30 emission filters fulfilling the needs of any user group.

Hit the Target

High sensitivity+ Wide dynamic range+ Accurate reagent injectors+ Extreme flexibility+ Biggest choice of technologies+ Small footprint= Mithras Microplate Readers

Selected Low Noise DetectorsIn addition to optimised optical paths selected highquality detectors are key to excellent sensitivity. The photomultiplier tubes (PMTs) used in the Mithrasmultimode readers are operated in the state-of-the-artultra-fast single photon counting mode. Stringent selection along narrow limits for lowest backgroundand highest efficiency ensures reliable and superiorperformance throughout all instruments.For very demanding applications the photomultipliertubes can be equipped with a Peltier-type cooling unitreducing the noise even further. Extended wavelengthrange type PMTs are available for near-infrared (NIR)fluorophores commonly used in fluorescence and time-resolved fluorescence energy transfer methods.

Sensitivity and FlexibilityThe Mithras LB 940 multimode plate reader is unique inits versatility, reliability and sensitivity. It is a modularplate reader system which can be configured for any current and future requirements. Mithras offers the biggest choice of reading technologies plus the choice ofusing up to 4 reagent injectors for fast and ultra-fastflash reactions as well as temperature control for long-term cellular assays. A straight forward calculation leadsto a clear result:

Mithras LB 940

Multimode Microplate Reader

detect and identify

Dedicated Optical Path System (DOPS)The Mithras operates with a dedicated optical path system (DOPS): for each reading technology there is anoptimum optical system guaranteeing high sensitivityand wide dynamic range for all measurements. The pathselection is done automatically by the instrument based on the user-selectedreading parameters. Even multiple measurement technologies may be selected within a run. Detection Limits of less than 6 attomolATP in luminescence mode and less than2 attomol Europium in time-resolvedfluorescence mode are impressive ex-amples for the outstanding performance.

Filters – the better choice for most applicationsThe Mithras LB 940 is a filter-based system to extract the greatest benefits from the Dedicated Optical Path System (DOPS) as only filters with hightransmission characteristics ensure best sensitivity.BRET and other colour luminescence applicationsare only possible with an extremely efficient opticalsystem together with appropriate filters as used inthe Mithras readers. Especially when little emissionlight is present as in fluorescence polarization and time-resolved fluorescence measurements the readingscan be performed with higher sensitivity and better reproducibility using appropriate filters.

On top of that fluorescence ratio kinetic measurements– a popular approach for receptor and ion channel monitoring – need fast wavelength switching only filter-based systems can provide. The Mithras microplatereaders can work with up to 20 excitation and more than30 emission filters fulfilling the needs of any user group.

Hit the Target

High sensitivity+ Wide dynamic range+ Accurate reagent injectors+ Extreme flexibility+ Biggest choice of technologies+ Small footprint= Mithras Microplate Readers

Selected Low Noise DetectorsIn addition to optimised optical paths selected highquality detectors are key to excellent sensitivity. The photomultiplier tubes (PMTs) used in the Mithrasmultimode readers are operated in the state-of-the-artultra-fast single photon counting mode. Stringent selection along narrow limits for lowest backgroundand highest efficiency ensures reliable and superiorperformance throughout all instruments.For very demanding applications the photomultipliertubes can be equipped with a Peltier-type cooling unitreducing the noise even further. Extended wavelengthrange type PMTs are available for near-infrared (NIR)fluorophores commonly used in fluorescence and time-resolved fluorescence energy transfer methods.

Sensitivity and FlexibilityThe Mithras LB 940 multimode plate reader is unique inits versatility, reliability and sensitivity. It is a modularplate reader system which can be configured for any current and future requirements. Mithras offers the biggest choice of reading technologies plus the choice ofusing up to 4 reagent injectors for fast and ultra-fastflash reactions as well as temperature control for long-term cellular assays. A straight forward calculation leadsto a clear result:

Mithras LB 940

Multimode Microplate Reader

Mithras LB 940

Multimode Microplate Reader

detect and identify

Calcium MonitoringIntracellular Ca++ levels have become important indicators for the activation state of ion channelsand G-protein coupled receptors as well as for thephases of apoptosis and cell injury. Though the respective kinetics and the absolute amounts of theCalcium levels are different for each of these physiological processes there are common ways formonitoring them.

Luminescent labelslike Aequorin as wellas fluorescent onesare versatile andwidely used solu-tions for microplateassays. Fura 2 andIndo-1 provide a ratiometric readoutthereby reducing

effects caused by leaking or bleached dyes or varyingassay conditions.

OregonGreen offers a fastsingle wavelength readoutespecially suited for highthroughput environments.These assays can easilyand reliably be performedwith the use of the Mithras´svariable reagent injectors.

ATP DeterminationA detection limit ofless than 6 attomolof ATP per wellmakes the Mithrasone of the bestsuited microplateinstruments for the determination of

cell viability, e.g. in tumor chemosensivity assays, cell proliferation, antibiotic susceptibility testing or hygienemonitoring.

DNA Probe AssaysSeveral diagnostic DNA probe assaysbased on Acridinium ester labelled oligo-nucleotides are commonly used providingthe most sensitive detection and diagnosisof infectious diseases.

Fluorescence Resonance EnergyTransfer (FRET)

Fluorescence Res-onance EnergyTransfer (FRET)has for long beenknown to be asmart method forvisualisation ofmolecular interac-tions of proteinsand nucleic acids.

The discovery and further development of the Fluorescent Protein family as well as the Cy dyes haveled to an increased use in microplate assays. Anotherpopular donor/acceptor combination is FITC and Rhodamine.

FRET is based on the fact that a donor dye like CFP inan excited state can transfer a part of this energy andexcite an acceptor dye like YFP. Its emission can be detected as soon as both dyes are in close proximity.

Homogeneous Functional GPCRAssay Using BRET DetectionG-protein coupled receptors, also referred to as 7-transmembrane (7TM) receptors, comprise thelargest and most diverse superfamily of proteinsknown. To a minor part only the ligands are known.

Especially in the field of G-protein coupled receptorresearch, the BRET technology offers the opportunity for the establishment of a homogeneousand universal functional assay, taking advantage of the fact that ß-arrestin (which is naturally playinga role in the desensitisation of the receptors) bindsto the intracellular part of the activated receptor.

Renilla luciferase emits blue lightat 480 nm upon addition of itssubstrate coelenterazine.

Activation of receptor (conform-ation change, attachment of G-protein) due to binding of ligand.

ß-arrestin / eYFP fusion protein at-taches to receptor enabling energytransfer between Renilla luciferaseand the eYFP moiety resulting in arising peak of green light at about 530 nm.

BRET is based on the fact that the energy derived froma Renilla luciferase reaction can be used to excite a fluorescent protein molecule if the latter is in close proximity to the luciferase enzyme. There are severaladvantages of BRET over other methods.

It is a non-radioactive and homogeneous tech-nology. The ratiometric signal minimises inter-ferences from assay conditions and keep the time management non critical. There is no auto-fluorescencecoming from compounds or cell and buffer components

as no light sourceis required.

Effect of agonist AVPon COS7#41 cellsexpressing VP2-Rlucand ß-arrestin-GFP2

Luminescent Immunoassays (LIA, ILMA)

By exchanging colori-metric substrates ofhorseradish peroxidaseor phosphatases withluminescent ones a100-fold increase insensitivity can usually be achieved. MikroWin

software with the curve fitting option adds convenientand extensive data evaluation capabilities to the superb instrument performance.

SNPsSNPs are the most common type of human geneticvariability playing a key role in the diversity of the development of diseases and response to thera-peutic treatments.

Fluorescence and especially Fluorescence Polarisationare convenient technologies for SNP determinationwith excellent possibility for miniaturisation.

Time-Resolved FRET Kinase Assays

Kinase assays inthe Time-ResolvedFluorescence for-mat have beenproven to be a veryrobust and reliabletechnology used forKinase work.

A biotinylated sub-strate for Serin,Threonin or TyrosinKinases is phos-phorylated by therespective Kinaseenabling aspecificantibody to bind.The Europium labelof the antibody canbe excited upon which an energy transfer to a Streptavidin-Acceptor conjugate occurs enabling the measurement of the Acceptor specific emission.

Reporter Gene AssaysIn basic research of gene regulation aswell as in drug discovery the use of luciferases, ß-galactosidases, ß-glucuronidases and secreted alkalinephosphatases have become a standard

tool offering thehighest sensitivity.Especially the dualluminescence typeassays, e.g. Dual-Luciferase® Re-porter Gene Assay,have become afavourite means asthey provide an internal control for transfection efficiency or generalexpression level. Superior sensitivity in lumines-cence – better than most dedicated luminescenceplate readers – make the Mithras the instrument ofchoice for reporter gene assays with a detectionlimit of less than 3 zeptomol Firefly luciferase.

Mithras LB 940

Multimode Microplate Reader

detect and identify

Calcium MonitoringIntracellular Ca++ levels have become important indicators for the activation state of ion channelsand G-protein coupled receptors as well as for thephases of apoptosis and cell injury. Though the respective kinetics and the absolute amounts of theCalcium levels are different for each of these physiological processes there are common ways formonitoring them.

Luminescent labelslike Aequorin as wellas fluorescent onesare versatile andwidely used solu-tions for microplateassays. Fura 2 andIndo-1 provide a ratiometric readoutthereby reducing

effects caused by leaking or bleached dyes or varyingassay conditions.

OregonGreen offers a fastsingle wavelength readoutespecially suited for highthroughput environments.These assays can easilyand reliably be performedwith the use of the Mithras´svariable reagent injectors.

ATP DeterminationA detection limit ofless than 6 attomolof ATP per wellmakes the Mithrasone of the bestsuited microplateinstruments for the determination of

cell viability, e.g. in tumor chemosensivity assays, cell proliferation, antibiotic susceptibility testing or hygienemonitoring.

DNA Probe AssaysSeveral diagnostic DNA probe assaysbased on Acridinium ester labelled oligo-nucleotides are commonly used providingthe most sensitive detection and diagnosisof infectious diseases.

Fluorescence Resonance EnergyTransfer (FRET)

Fluorescence Res-onance EnergyTransfer (FRET)has for long beenknown to be asmart method forvisualisation ofmolecular interac-tions of proteinsand nucleic acids.

The discovery and further development of the Fluorescent Protein family as well as the Cy dyes haveled to an increased use in microplate assays. Anotherpopular donor/acceptor combination is FITC and Rhodamine.

FRET is based on the fact that a donor dye like CFP inan excited state can transfer a part of this energy andexcite an acceptor dye like YFP. Its emission can be detected as soon as both dyes are in close proximity.

Homogeneous Functional GPCRAssay Using BRET DetectionG-protein coupled receptors, also referred to as 7-transmembrane (7TM) receptors, comprise thelargest and most diverse superfamily of proteinsknown. To a minor part only the ligands are known.

Especially in the field of G-protein coupled receptorresearch, the BRET technology offers the opportunity for the establishment of a homogeneousand universal functional assay, taking advantage of the fact that ß-arrestin (which is naturally playinga role in the desensitisation of the receptors) bindsto the intracellular part of the activated receptor.

Renilla luciferase emits blue lightat 480 nm upon addition of itssubstrate coelenterazine.

Activation of receptor (conform-ation change, attachment of G-protein) due to binding of ligand.

ß-arrestin / eYFP fusion protein at-taches to receptor enabling energytransfer between Renilla luciferaseand the eYFP moiety resulting in arising peak of green light at about 530 nm.

BRET is based on the fact that the energy derived froma Renilla luciferase reaction can be used to excite a fluorescent protein molecule if the latter is in close proximity to the luciferase enzyme. There are severaladvantages of BRET over other methods.

It is a non-radioactive and homogeneous tech-nology. The ratiometric signal minimises inter-ferences from assay conditions and keep the time management non critical. There is no auto-fluorescencecoming from compounds or cell and buffer components

as no light sourceis required.

Effect of agonist AVPon COS7#41 cellsexpressing VP2-Rlucand ß-arrestin-GFP2

Luminescent Immunoassays (LIA, ILMA)

By exchanging colori-metric substrates ofhorseradish peroxidaseor phosphatases withluminescent ones a100-fold increase insensitivity can usually be achieved. MikroWin

software with the curve fitting option adds convenientand extensive data evaluation capabilities to the superb instrument performance.

SNPsSNPs are the most common type of human geneticvariability playing a key role in the diversity of the development of diseases and response to thera-peutic treatments.

Fluorescence and especially Fluorescence Polarisationare convenient technologies for SNP determinationwith excellent possibility for miniaturisation.

Time-Resolved FRET Kinase Assays

Kinase assays inthe Time-ResolvedFluorescence for-mat have beenproven to be a veryrobust and reliabletechnology used forKinase work.

A biotinylated sub-strate for Serin,Threonin or TyrosinKinases is phos-phorylated by therespective Kinaseenabling aspecificantibody to bind.The Europium labelof the antibody canbe excited upon which an energy transfer to a Streptavidin-Acceptor conjugate occurs enabling the measurement of the Acceptor specific emission.

Reporter Gene AssaysIn basic research of gene regulation aswell as in drug discovery the use of luciferases, ß-galactosidases, ß-glucuronidases and secreted alkalinephosphatases have become a standard

tool offering thehighest sensitivity.Especially the dualluminescence typeassays, e.g. Dual-Luciferase® Re-porter Gene Assay,have become afavourite means asthey provide an internal control for transfection efficiency or generalexpression level. Superior sensitivity in lumines-cence – better than most dedicated luminescenceplate readers – make the Mithras the instrument ofchoice for reporter gene assays with a detectionlimit of less than 3 zeptomol Firefly luciferase.

AlphaScreen™ Technology forSecondary Messenger ScreeningAlphaScreen™ relies on the use of Donor and Acceptorbeads providing functional groups for conjugation forbiomolecules. The beads come in close proximity whenthe biomolecules interact by molecular binding, e.g. antibody-antigen or receptor-ligand. Laser excitation at680 nm of a photosensitiser present on the Donor bead

results in the pro-duction of singletoxygen.

The singlet oxygenmigrates to reactwith chemilumi-nescers on the Acceptor bead. The chemilumi-

nescers then activate fluorophores emitting light at 520 - 620 nm.

AlphaScreenTM has proven to be a reliable and sensitivemethod in detection assays for secondary messengerslike cyclic AMP or IP3 activity.

Receptor-Ligand Binding AssaysBased on Fluorescence Polarisation

Fluorescence po-larisation (FP) isideal to measurethe binding of asmall molecule toa much larger one.Unbound fluores-cent tracers willdepolarise lightduring emission

resulting in low polarisation, because the unbound molecules tumble more rapidly than bound tracers.In contrast, bound fluorescent labelled moleculeskeep the polarisation orientation as their rotation is inhibited.

Caspase AssaysMonitoring the activity of Caspases – a group of cystein-aspartic acid peptidases – is a key method inapoptosis research. The assays are designed aroundspecific peptide substrates for Caspase 3, 7, 8 and9 respectively which will be cleaved when Caspasesare present indicating cells are in an apoptotic state.

Assay technologiesare available withluminescent read-out through the release of Luciferinwhich acts as thesubstrate for the

subsequent lightgenerating Lu-ciferase reaction.Other setups re-lease fluorescentdyes, e.g. Fluores-

cein or Coumarinderivatives, uponcleavage or colou-red substancesdetectable withabsorbance meas-urements. Finallythere are substrateslabelled with Lan-thanide chelates and quenchers which are cleavedoff by the Caspases making the time-resolved fluorescence emission detectable.

detect and identify

Mithras LB 940

Multimode Microplate Reader

Plate StackerUnattended operation and increased throughput arefacilitated with the Stacker unit LB 931. The stackerunit can simply be attached to the Mithras withoutany modifications of the main instrument.

Two different types of stacks are available to holdeither 25 or 50 microplates. They are easily exchan-geable to match everday´s varying throughputneeds. The stacker accepts 24, 96, 384 and 1536well microplates from all major plate manufacturers.Manual and robotic loading is still possible even withthe stacker attached by simply removing the platestacks.

A unique feature of the LB 931 Stacker is the re-stacking operationmode which can be usedin long-term kinetic mo-nitoring of samples in multiple microplates, e.g.circadian rhythms of gene expression.

Barcode readers may beadded and used for po-sitive plate identificationor for automatically se-lecting parameter filescontaining the respec-tive measurement set-tings. The softwaresupports multiple opti-ons for data storageusing the barcode infor-mation.

Robot IntegrationSpecially designed for but not restricted to the usein HTS departments of drug discovery companiesthe robot access module allows for uncomplicatedintegration of the Mithras into any type of lab automation system. Software and hardware easilyintegrate into existing robotic or liquid handling systems.

BUTLER Plate HandlerWith the BUTLER LB 930 another dimension of automation is revealed. A total capacity of up to 100microplates can be handled. Any type of microplate canbe loaded to the removable stacks.

Besides the Mithras plate reader additional devices forplate washing, pipetting or incubation may be added. It enables the setup of a complete workstation for assaypreparation and measurement.

Throughput is optimized by the integration of the unique High Throughput Transfer & Loading (HTTL) station. It minimises the time loss while transferringmeasured microplates back to the stacks. A barcodereader is available for positive plate identification. The barcodes of the microplates can be stored with themeasurement data.

The BUTLER comes with a pre-configured setup andlayout but can be individually configured at any timeby the users.

Microplate FormatsAny kind of microplate regardless of its colour anddesign can be measured in Mithras. All microplateformats from 6 wells up to 1536 well can be measured when the automatic plate height adjustment option is present. In addition Petridishes, Terasaki plates and filter membranes can be loaded with respective adapters.There is no need for any mechanical adjustment by the user – simply select the appropriate plate format in the operating software. The plate heightadjustment module detects the height of the plate loaded and automatically adjusts the measurement optics for it.

AlphaScreen™ Technology forSecondary Messenger ScreeningAlphaScreen™ relies on the use of Donor and Acceptorbeads providing functional groups for conjugation forbiomolecules. The beads come in close proximity whenthe biomolecules interact by molecular binding, e.g. antibody-antigen or receptor-ligand. Laser excitation at680 nm of a photosensitiser present on the Donor bead

results in the pro-duction of singletoxygen.

The singlet oxygenmigrates to reactwith chemilumi-nescers on the Acceptor bead. The chemilumi-

nescers then activate fluorophores emitting light at 520 - 620 nm.

AlphaScreenTM has proven to be a reliable and sensitivemethod in detection assays for secondary messengerslike cyclic AMP or IP3 activity.

Receptor-Ligand Binding AssaysBased on Fluorescence Polarisation

Fluorescence po-larisation (FP) isideal to measurethe binding of asmall molecule toa much larger one.Unbound fluores-cent tracers willdepolarise lightduring emission

resulting in low polarisation, because the unbound molecules tumble more rapidly than bound tracers.In contrast, bound fluorescent labelled moleculeskeep the polarisation orientation as their rotation is inhibited.

Caspase AssaysMonitoring the activity of Caspases – a group of cystein-aspartic acid peptidases – is a key method inapoptosis research. The assays are designed aroundspecific peptide substrates for Caspase 3, 7, 8 and9 respectively which will be cleaved when Caspasesare present indicating cells are in an apoptotic state.

Assay technologiesare available withluminescent read-out through the release of Luciferinwhich acts as thesubstrate for the

subsequent lightgenerating Lu-ciferase reaction.Other setups re-lease fluorescentdyes, e.g. Fluores-

cein or Coumarinderivatives, uponcleavage or colou-red substancesdetectable withabsorbance meas-urements. Finallythere are substrateslabelled with Lan-thanide chelates and quenchers which are cleavedoff by the Caspases making the time-resolved fluorescence emission detectable.

detect and identify

Mithras LB 940

Multimode Microplate Reader

Plate StackerUnattended operation and increased throughput arefacilitated with the Stacker unit LB 931. The stackerunit can simply be attached to the Mithras withoutany modifications of the main instrument.

Two different types of stacks are available to holdeither 25 or 50 microplates. They are easily exchan-geable to match everday´s varying throughputneeds. The stacker accepts 24, 96, 384 and 1536well microplates from all major plate manufacturers.Manual and robotic loading is still possible even withthe stacker attached by simply removing the platestacks.

A unique feature of the LB 931 Stacker is the re-stacking operationmode which can be usedin long-term kinetic mo-nitoring of samples in multiple microplates, e.g.circadian rhythms of gene expression.

Barcode readers may beadded and used for po-sitive plate identificationor for automatically se-lecting parameter filescontaining the respec-tive measurement set-tings. The softwaresupports multiple opti-ons for data storageusing the barcode infor-mation.

Robot IntegrationSpecially designed for but not restricted to the usein HTS departments of drug discovery companiesthe robot access module allows for uncomplicatedintegration of the Mithras into any type of lab automation system. Software and hardware easilyintegrate into existing robotic or liquid handling systems.

BUTLER Plate HandlerWith the BUTLER LB 930 another dimension of automation is revealed. A total capacity of up to 100microplates can be handled. Any type of microplate canbe loaded to the removable stacks.

Besides the Mithras plate reader additional devices forplate washing, pipetting or incubation may be added. It enables the setup of a complete workstation for assaypreparation and measurement.

Throughput is optimized by the integration of the unique High Throughput Transfer & Loading (HTTL) station. It minimises the time loss while transferringmeasured microplates back to the stacks. A barcodereader is available for positive plate identification. The barcodes of the microplates can be stored with themeasurement data.

The BUTLER comes with a pre-configured setup andlayout but can be individually configured at any timeby the users.

Microplate FormatsAny kind of microplate regardless of its colour anddesign can be measured in Mithras. All microplateformats from 6 wells up to 1536 well can be measured when the automatic plate height adjustment option is present. In addition Petridishes, Terasaki plates and filter membranes can be loaded with respective adapters.There is no need for any mechanical adjustment by the user – simply select the appropriate plate format in the operating software. The plate heightadjustment module detects the height of the plate loaded and automatically adjusts the measurement optics for it.

Mithras LB 940

Multimode Microplate Reader

Temperature ControlThe Mithras can be equipped with a heating system forthe microplates for assays which need to be measuredat elevated and constanttemperatures, e.g. commonin cells based assays. Eachparameter file can have itsindividual temperature setting which is simply activated by loading the respective parameter file. The detector is cooled by a Peltier unit to keep its temperature and noise low and maintain its high sensitivity.

KineticsWith the Kinetic and Repeated measurement modestime courses of physiological processes can be moni-tored over short (few seconds) and long periods oftime, e.g. up to 7 days. Enzyme activities, phagocyto-sis and Calcium monitoring are typical applications forthe use of the kinetic functionality. The Kinetic and Repeated modes includepossibilities to define interval and cycle timesas well as intermittentinjections or dual labelsettings (as in BRET andFura 2 assays).

Flexible graphical displays and numerous calculation options enable sophisticated data evaluation, e.g. AUC,Vmax, slope, minimum, maximum. In addition the kinetic mode can support the user to establish optimumassay conditions or to monitor the reaction time ofluminescence or fluorescence assays and define appro-priate measurement times.

Well ScanningThe Scanning mode enables the researcher to scan awell of a microplate in up to 10,000 steps each of themcreating an individual data point. This procedure is recommended when the assay is based on adherentcells which are heterogeneously distributed and signalsare not located at the centers of thewells. A graphical representation ofthe signal distribution as well asmathematical formula for minimum,maximum, average and total signalfacilitate data interpretion e.g. inchemotaxis applications.

Reagent InjectorsUp to 4 independently controlled injectors with variable volume give entire freedom in the selectionof assay type and assay sequence. The injectors are located in measurement and pre-measurementpositions of the luminescence and the fluorescencepath respectively.

JET injection tech-nology stands forprecision and accur-acy - better than 98 %-and the most reliable way ofproper mixing of theadded reagents.Tuneable injectionspeed covers the

different demands of viscosities, cells or filling heights.

The volumes are adjustablefrom 10 to 100 µL–in incre-ments of 1 µL. This is perfectly matching the requirements for reagentaddition into 96 and 384well plates. Dispensing caneven be performed within a running kinetic measure-ment, e.g. to watch the effects of added agonists /antagonists. Cell-friendlymaterials and diameters as well as the ability for lowspeed injection make the Berthold Technologies JETinjectors the ideal tools for the addition of cell suspensions to compound plates, e.g. in Aequorin-type Calcium assays. “Economy Prime” a special priming mode which isunique to Berthold Technologies JET injectors hasbeen developed and implemented to facilitate homogeneous filling of the injection lines whilstusing as little prime volume as possible helping theusers to save valuable reagents.

Red enhanced photomultiplierThe red enhanced photomultiplier with an extendedspectral range (340 – 800 nm) is especially designed for measurement of fluorescence dyeswith emission wavelengths higher than 650 nm. Thephotomultiplier is Peltier cooled to reduce back-ground noise.

detect and identify

Microplate ShakingThe integral shaking function with 3 shaking modes –linear, orbital and double orbital – each of them adjustable in amplitude and speed can be activatedto enhance mixing and optimise sample distribution before measurement. This can be very useful in long-term kinetic assays with cells.

Small footprintMithras LB 940 has been designed with a very smallfootprint. Housing dimensions are only 472 mm x494 mm including reagent injectors saving valuablelaboratory space.

Excitation & Emission FiltersMithras microplate readers can work with up to 20excitation and more than 30 emission filters conven-iently mounted in exchangeable slides and wheels.These filter carriers are software-driven and providequick change of emission and excitation filterswithin one run especially important for all applica-tions with ratiometric readout, e.g. Indo-1, Fura 2 orBRET. The changing time for adjacent filter positionsis as low as 130 ms made for highest resolution in

kinetics. The filters offered by Berthold Technologiesare high quality filters with selected transmission andbandwidth specifications for the respective applica-tions. Additional filters can by added by the users atany time. Only filters with high transmission charac-teristics ensure best sensitivity needed for BRET andother colour luminescence assays. When little emis-sion light is present as in fluorescence polarizationand time-resolved fluorescence measurements thereadings can be performed with higher sensitivityand better reproducibility using appropriate filters.

Mithras LB 940

Multimode Microplate Reader

Temperature ControlThe Mithras can be equipped with a heating system forthe microplates for assays which need to be measuredat elevated and constanttemperatures, e.g. commonin cells based assays. Eachparameter file can have itsindividual temperature setting which is simply activated by loading the respective parameter file. The detector is cooled by a Peltier unit to keep its temperature and noise low and maintain its high sensitivity.

KineticsWith the Kinetic and Repeated measurement modestime courses of physiological processes can be moni-tored over short (few seconds) and long periods oftime, e.g. up to 7 days. Enzyme activities, phagocyto-sis and Calcium monitoring are typical applications forthe use of the kinetic functionality. The Kinetic and Repeated modes includepossibilities to define interval and cycle timesas well as intermittentinjections or dual labelsettings (as in BRET andFura 2 assays).

Flexible graphical displays and numerous calculation options enable sophisticated data evaluation, e.g. AUC,Vmax, slope, minimum, maximum. In addition the kinetic mode can support the user to establish optimumassay conditions or to monitor the reaction time ofluminescence or fluorescence assays and define appro-priate measurement times.

Well ScanningThe Scanning mode enables the researcher to scan awell of a microplate in up to 10,000 steps each of themcreating an individual data point. This procedure is recommended when the assay is based on adherentcells which are heterogeneously distributed and signalsare not located at the centers of thewells. A graphical representation ofthe signal distribution as well asmathematical formula for minimum,maximum, average and total signalfacilitate data interpretion e.g. inchemotaxis applications.

Reagent InjectorsUp to 4 independently controlled injectors with variable volume give entire freedom in the selectionof assay type and assay sequence. The injectors are located in measurement and pre-measurementpositions of the luminescence and the fluorescencepath respectively.

JET injection tech-nology stands forprecision and accur-acy - better than 98 %-and the most reliable way ofproper mixing of theadded reagents.Tuneable injectionspeed covers the

different demands of viscosities, cells or filling heights.

The volumes are adjustablefrom 10 to 100 µL–in incre-ments of 1 µL. This is perfectly matching the requirements for reagentaddition into 96 and 384well plates. Dispensing caneven be performed within a running kinetic measure-ment, e.g. to watch the effects of added agonists /antagonists. Cell-friendlymaterials and diameters as well as the ability for lowspeed injection make the Berthold Technologies JETinjectors the ideal tools for the addition of cell suspensions to compound plates, e.g. in Aequorin-type Calcium assays. “Economy Prime” a special priming mode which isunique to Berthold Technologies JET injectors hasbeen developed and implemented to facilitate homogeneous filling of the injection lines whilstusing as little prime volume as possible helping theusers to save valuable reagents.

Red enhanced photomultiplierThe red enhanced photomultiplier with an extendedspectral range (340 – 800 nm) is especially designed for measurement of fluorescence dyeswith emission wavelengths higher than 650 nm. Thephotomultiplier is Peltier cooled to reduce back-ground noise.

detect and identify

Microplate ShakingThe integral shaking function with 3 shaking modes –linear, orbital and double orbital – each of them adjustable in amplitude and speed can be activatedto enhance mixing and optimise sample distribution before measurement. This can be very useful in long-term kinetic assays with cells.

Small footprintMithras LB 940 has been designed with a very smallfootprint. Housing dimensions are only 472 mm x494 mm including reagent injectors saving valuablelaboratory space.

Excitation & Emission FiltersMithras microplate readers can work with up to 20excitation and more than 30 emission filters conven-iently mounted in exchangeable slides and wheels.These filter carriers are software-driven and providequick change of emission and excitation filterswithin one run especially important for all applica-tions with ratiometric readout, e.g. Indo-1, Fura 2 orBRET. The changing time for adjacent filter positionsis as low as 130 ms made for highest resolution in

kinetics. The filters offered by Berthold Technologiesare high quality filters with selected transmission andbandwidth specifications for the respective applica-tions. Additional filters can by added by the users atany time. Only filters with high transmission charac-teristics ensure best sensitivity needed for BRET andother colour luminescence assays. When little emis-sion light is present as in fluorescence polarizationand time-resolved fluorescence measurements thereadings can be performed with higher sensitivityand better reproducibility using appropriate filters.

Standard curve fitting and calculation of unknownsamples is available for those users looking forquantification of their results (Advanced I and II).

All data can be exportedin EXCEL® or ASCII formats.

Instrument settings, usersignatures and file infor-mation are stored withthe results.

The password system and the audit trail function ofthe Advanced I and IIversions are impor-tant tools for data security.

MikroWin 2000 SoftwareThe Windows® based software combines operationand definition of instrument settings as well as datareduction and evaluation.

The wells for measurement and injection can be selected independently. Various operations can bepicked and placed in any order to accommodate for all different requirements of the assays to beperformed.

Kinetic data reduction and graphical display of therespective curves help the user to judge the results.

Any type of ratio calculation, e.g. DLR®, or othermathematical formulas can be linked to every wellindividually.

Mithras LB 940

Multimode Microplate Reader

detect and identify

21 CFR part 11 StatementSystem access is controlled by log-on routines where unique combinations of user nameand password are required to enter operation levels.

Unauthorised access is denied and documented.

Electronic signatures are provided by user ID and date/time stamps in data files.

Files can be viewed in electronic and printable form.

Audit trails are generated.

System has been developed, tested and documented according to ISO 9001 regulations.

Basic models Order number

Mithras Basic: Luminescence, Fluorescence (top), waste pump, MikroWin Lite* 38099-10Mithras Basic T: Luminescence, Fluorescence (top), temperature control, cooled PMT, waste pump, MikroWin Lite* 38099-15Mithras Basic TRF: Luminescence, Fluorescence (top),TRF, waste pump, MikroWin Lite* 38099-50Mithras Basic T/TRF: Luminescence, Fluorescence (top), TRF, temperature control, cooled PMT, waste pump, MikroWin Lite* 38099-55Mithras Basic T/TR-FRET: Luminescence, Fluorescence (top),Time-resolved FRET, temperature control, cooled PMT,waste pump, MikroWin Lite* 38099-57

Application Packages Order number

Mithras Absorbance: Luminescence, Fluorescence (top),Absorbance, injector 3, MikroWin Lite* 38099-40Mithras Research I: Luminescence, Fluorescence (top),Absorbance, plate height adjustment,injector 2+3, MikroWin Lite* 38099-41Mithras Research II: Luminescence, Fluorescence (top & bottom), Absorbance, plate height adjustment, temperature control, cooled PMT, injector 4, MikroWin Lite* 38099-42Mithras Fluorescence: Luminescence, Fluorescence (top & bottom), plate height adjustment,temperature control, cooled PMT, injector 4,MikroWin Lite* 38099-43Mithras BRET: Luminescence, Fluorescence (top), plate height adjustment, temperature control, cooled PMT, BRET package, injector 1+2+3+4, MikroWin Lite* 38099-44Mithras HTS: Luminescence, Fluorescence (top), Absorbance, Fluorescence Polarisation, AlphaScreen™, plate height adjustment, temperature control, cooled PMT, BRET package, injector 1+3+4,robot integration module, MikroWin Adv.II 38099-45Mithras Research III: Luminescence, Fluorescence (top), Absorbance, TRF, plate height adjustment, temperature control, cooled PMT, injector 4, MikroWin Lite* 38099-62Mithras HTS II: Luminescence, Fluorescence (top), Absorbance, Fluorescence Polarisation, AlphaScreen™, Time-Resolved FRET, plate height adjustment, temperature control, cooled PMT, BRET package, injector 1+3+4, robot integration module, MikroWin Adv.II 38099-75

* Upgrade (MikroWin Advanced versions I or II) and additional licences available

Options Order number

Injector 1 pre-position Luminescence, 10-100µL 37772-11Injector 2 meas. position Luminescence, 10-100µL 37772-12Injector 3 meas. position Luminescence, 10-100µL 37772-13Injector 4 meas. position Fluorescence, 10-100µL 37772-14Automatic plate height adjustment 39364Cooling unit for photomultiplier 39337Fluorescence bottom reading 39348BRET package incl. 4 filters 39350Chroma-Glo package (em 510 and 610 nm) 43544AlphaScreenTM module incl. filter 39359Fluorescence Polarisation module 39351Fluorescence Polarisation module for TRF models 49867Absorbance module 39360Absorbance module for TRF models 49794Red-enhanced PMT 50037High sensitivity fluorescence module 50245

Please refer to the Models & Options sheet for compliance of optional modules with individual Mithras models.

Accessories Order number

Petri dish adapter Falcon 35 & 60 mm 42047Petri dish adapter Nunc 35 & 60 mm 39362Adapter for Terasaki plates 39363Additional excitation filter slide 39336Additional emission filter wheel 38882Filter membrane adapter 22674Luminescence test plate for QC 40105-10Luminescence test kit for QC 45366Absorbance test plate 43513Cleanit Daily, injector cleaning solution 42218Microplates 96 well, white, 100 pcs 23300Microplates 96 well, black, 100 pcs 23302Microplates 96 well, white, sterile, 50 pcs 51838Microplates 96 well, black, sterile, 50 pcs 51839Micropl. 96 well, white, clear bottom, cell culture, 100 pcs 24910Micropl. 96 well, black, clear bottom, cell culture, 100 pcs 38840Micropl. 24 well, white, clear bottom, cell culture, 56 pcs 41081Micropl. 24 well, black, clear bottom, cell culture, 56 pcs 41082Microplates 384 well, white, 40 pcs 32505

For further information of available filters see Filter Data Sheet

PMT: Photomultiplier TRF: Time-resolved fluorescence

Order information

Standard curve fitting and calculation of unknownsamples is available for those users looking forquantification of their results (Advanced I and II).

All data can be exportedin EXCEL® or ASCII formats.

Instrument settings, usersignatures and file infor-mation are stored withthe results.

The password system and the audit trail function ofthe Advanced I and IIversions are impor-tant tools for data security.

MikroWin 2000 SoftwareThe Windows® based software combines operationand definition of instrument settings as well as datareduction and evaluation.

The wells for measurement and injection can be selected independently. Various operations can bepicked and placed in any order to accommodate for all different requirements of the assays to beperformed.

Kinetic data reduction and graphical display of therespective curves help the user to judge the results.

Any type of ratio calculation, e.g. DLR®, or othermathematical formulas can be linked to every wellindividually.

Mithras LB 940

Multimode Microplate Reader

detect and identify

21 CFR part 11 StatementSystem access is controlled by log-on routines where unique combinations of user nameand password are required to enter operation levels.

Unauthorised access is denied and documented.

Electronic signatures are provided by user ID and date/time stamps in data files.

Files can be viewed in electronic and printable form.

Audit trails are generated.

System has been developed, tested and documented according to ISO 9001 regulations.

Basic models Order number

Mithras Basic: Luminescence, Fluorescence (top), waste pump, MikroWin Lite* 38099-10Mithras Basic T: Luminescence, Fluorescence (top), temperature control, cooled PMT, waste pump, MikroWin Lite* 38099-15Mithras Basic TRF: Luminescence, Fluorescence (top),TRF, waste pump, MikroWin Lite* 38099-50Mithras Basic T/TRF: Luminescence, Fluorescence (top), TRF, temperature control, cooled PMT, waste pump, MikroWin Lite* 38099-55Mithras Basic T/TR-FRET: Luminescence, Fluorescence (top),Time-resolved FRET, temperature control, cooled PMT,waste pump, MikroWin Lite* 38099-57

Application Packages Order number

Mithras Absorbance: Luminescence, Fluorescence (top),Absorbance, injector 3, MikroWin Lite* 38099-40Mithras Research I: Luminescence, Fluorescence (top),Absorbance, plate height adjustment,injector 2+3, MikroWin Lite* 38099-41Mithras Research II: Luminescence, Fluorescence (top & bottom), Absorbance, plate height adjustment, temperature control, cooled PMT, injector 4, MikroWin Lite* 38099-42Mithras Fluorescence: Luminescence, Fluorescence (top & bottom), plate height adjustment,temperature control, cooled PMT, injector 4,MikroWin Lite* 38099-43Mithras BRET: Luminescence, Fluorescence (top), plate height adjustment, temperature control, cooled PMT, BRET package, injector 1+2+3+4, MikroWin Lite* 38099-44Mithras HTS: Luminescence, Fluorescence (top), Absorbance, Fluorescence Polarisation, AlphaScreen™, plate height adjustment, temperature control, cooled PMT, BRET package, injector 1+3+4,robot integration module, MikroWin Adv.II 38099-45Mithras Research III: Luminescence, Fluorescence (top), Absorbance, TRF, plate height adjustment, temperature control, cooled PMT, injector 4, MikroWin Lite* 38099-62Mithras HTS II: Luminescence, Fluorescence (top), Absorbance, Fluorescence Polarisation, AlphaScreen™, Time-Resolved FRET, plate height adjustment, temperature control, cooled PMT, BRET package, injector 1+3+4, robot integration module, MikroWin Adv.II 38099-75

* Upgrade (MikroWin Advanced versions I or II) and additional licences available

Options Order number

Injector 1 pre-position Luminescence, 10-100µL 37772-11Injector 2 meas. position Luminescence, 10-100µL 37772-12Injector 3 meas. position Luminescence, 10-100µL 37772-13Injector 4 meas. position Fluorescence, 10-100µL 37772-14Automatic plate height adjustment 39364Cooling unit for photomultiplier 39337Fluorescence bottom reading 39348BRET package incl. 4 filters 39350Chroma-Glo package (em 510 and 610 nm) 43544AlphaScreenTM module incl. filter 39359Fluorescence Polarisation module 39351Fluorescence Polarisation module for TRF models 49867Absorbance module 39360Absorbance module for TRF models 49794Red-enhanced PMT 50037High sensitivity fluorescence module 50245

Please refer to the Models & Options sheet for compliance of optional modules with individual Mithras models.

Accessories Order number

Petri dish adapter Falcon 35 & 60 mm 42047Petri dish adapter Nunc 35 & 60 mm 39362Adapter for Terasaki plates 39363Additional excitation filter slide 39336Additional emission filter wheel 38882Filter membrane adapter 22674Luminescence test plate for QC 40105-10Luminescence test kit for QC 45366Absorbance test plate 43513Cleanit Daily, injector cleaning solution 42218Microplates 96 well, white, 100 pcs 23300Microplates 96 well, black, 100 pcs 23302Microplates 96 well, white, sterile, 50 pcs 51838Microplates 96 well, black, sterile, 50 pcs 51839Micropl. 96 well, white, clear bottom, cell culture, 100 pcs 24910Micropl. 96 well, black, clear bottom, cell culture, 100 pcs 38840Micropl. 24 well, white, clear bottom, cell culture, 56 pcs 41081Micropl. 24 well, black, clear bottom, cell culture, 56 pcs 41082Microplates 384 well, white, 40 pcs 32505

For further information of available filters see Filter Data Sheet

PMT: Photomultiplier TRF: Time-resolved fluorescence

Order information

Mithras LB 940

Multimode Microplate Reader

MithrasLB 940Multimode MicroplateReader

detect and identify

Mithra

s LB

940 ·

10-2

007·3

000 ·

Id.N

r. 3

8099 P

R2 R

ev.0

2

Detection Units Low-noise photomultiplier tubein single photon counting mode,spectral range: 340 - 650 nm; PMT in single photon counting modewith extended range: 340 – 800 nm;photo diode: 200 - 1000nm

Excitation Sources halogen lamp, 75 W (340-700 nm);Xenon flash lamp (TRF models);laser, 680 nm (AlphaScreenTM option)

Excitation Filters 355 nm, 485 nm; 405 nm, 450 nm, 490 nm, 620 nm(with Absorbance option)

Emission Filters 460 nm, 535 nm; 400 nm, 515 nm, 480 nm, 530 nm(with BRET option); 615 nm (TRF models)615, 620, 665 nm (TR-FRET models)568 nm (AlphaScreenTM option)

Measurement LuminescenceTechnologies Top-reading Fluorescence

Bottom-reading Fluorescence (option)Fluorescence Polarisation (option)Time-Resolved Fluorescence (option)Time-Resolved FRET (option)Absorbance (option)AlphaScreen™ (option)BRET (option)

SensitivityLuminescence <6 amol ATP; <3 zmol firefly luciferase,

equals less then 800 moleculesFluorescence <1 fmol FITCAbsorbance linear range 0-3.5 OD

accuracy <2 % cv (@ 2.5 OD)Time-Resolved 6 amol Eu (96 well),Fluorescence 2 amol Eu (384 well)FluorescencePolarisation cv 4.4 % with 1 nM FluoresceinAlphaScreen™ <12.5 ng standard beads

Dynamic Range >6 orders of magnitudeCrosstalk low crosstalk through

crosstalk reduction design: 5 x 10-6

Injection Unit up to 4 injectors (variable volume:10–100 µL), JET Injection technlogyinjection into 384 well plates

Plate formats with all 6 well to 1536 well microplatesPlate height with outer dimensions: 86.0x128.2 mmadjustment (option) (WxL); plate height: 8.0– 22.2 mm

Petri dishes, Terasaki Plates, filterswith resp. adapters (option)

Plate formats all 96 and 384 well microplates withwithout Plate height outer dimensions: 86.0x128.2 (WxL);adjustment plate height: 13.9–15.1 mmTemperature Control +5°C above RT to 42 °C (option),

includes cooling unit for PMTRobot BUTLER LB 930 (option)Stacker Stacker LB 931 (option)

Interface serial RS232, 9 pinPC Operating System Win 98, Win 2000, Win NT,

Win XP, Win VistaPC Requirements Pentium processor, 500 MHz

(or better), CD ROM drive, display1024x768 (or better), serial port,parallel port, USB

Software MikroWin 2000Power Supply 110 - 240 V; 50 /60 Hz; 240 VARegulations CE, UL, CSACertifications DLRTM

Temperature Range storage: 0° - 40° Coperation: 15° - 35° C

Humidity 10 – 85%, non condensingDimensions 472 x 494 x 374 mm

(WxDxH), incl. injectorsWeight 30 – 45 kg (depending on configuration)

Operation ModesIntegral measurement 0.1 – 600 secKinetics measurement total time up to 24 h Repeated measurement total time up to 7 daysPlate repeats up to 50,000Delay up to 600 secScanning up to 10,000 individual meas. pointsDispensing with 4 independently controlled

variable volume injectorsShaking 3 modes, variable amplitude and speed

Default parameter files, e.g. BRET, BRET2, Dual-Luciferase® andDual-Glo™ reporter gene, Chroma-GloTM, TRF, TR-FRET, Fluorescein,Umbelliferone, AlphaScreen™, FRET, Fluorescence Polarisation, kinetics and repeated type, ratiometric assays.

Patents: EP 0 523 522 ; EP 1 279 946 (pending); DE 4 123 818 ;DE 10 136 863 (pending); 6,949,754 US

AlphaScreen™ is a trademark of PerkinElmer. DLR®, Dual-Luciferase®, Dual-Glo® and Chroma-GloTM

are registered trademarks of Promega. HTRF® is a trademark of Cisbio.

Technical Specification