Ge Simplinano User manual

Spectrophotometer Health &

Safety Document including

General Operating Instructions

Original Instructions

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1. Health and Safety 3

1.1. Scope 3

1.2. Intended use 3

1.3. Safety Notices 3

1.4. General Safety 4

1.5. General Hazards 5

1.6. Unpacking and Installation 5

2. Operating and Maintenance 7

2.1. Preparation before starting 7

2.2. Performing a run - cuvettes 7

2.3. Performing a run – Micro Volume Instruments 8

2.4. Post run procedures 9

2.5. User Maintenance 9

2.6. Novaspec III/Plus Lamp Change 10

2.7. Ultrospec 8000/9000 Lamp Change 10

3. Troubleshooting 11

3.1. Emergency Procedures 12

3.2. Recycling Procedures 12

3.3. Recycling of hazardous substances 12

3.4. Disposal of electrical components 12

3.5. Specifications 13

3.6. Manufacturing information 13

4. Legal 14

Page finder

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1. HEALTH AND SAFETY

1.1. Scope

This booklet covers the following ranges of instruments:

• Ultrospec™10celldensitymeter

• Novaspec™IIIandNovaspecPlusVisiblespectrophotometers

• GeneQuant™100&1300UV/Visiblespectrophotometers

• Ultrospec2100/7000/8000/9000 UV/Visible spectrophotometers

• SimpliNano™andNanoVue™Plusmicrovolumespectrophotometer

Translations of these instructions into 22 European languages are available on the

User Manual CD supplied with the instrument and on the internet at GE home page

www.gelifesciences.com

1.2. Intended use

Visible and UV/Visible spectrophotometers shine light through a liquid sample and

measure its Absorbance. This sample is typically held in a cuvette but when sample

volume is limited, instruments such as the SimpliNano or NanoVue Plus can be used

where a 2 µl sample can be pipetted directly onto the measurement area. Typical

applications of spectrophotometers include DNA/RNA/Oligo concentration and purity

measurements as well as protein concentrations.

This manual addresses the needs of scientists and technicians who operate UV/

Visible spectrophotometers. The level of information presented in this manual

assumes the user possesses basic laboratory and technical skills, and has the

knowledge and documentation to safely operate. If you need assistance with the

instructions in this manual, contact GE for more information.

1.3. Safety Notices

These operating instructions contain Warnings and Cautions concerning the products

with meanings as defined below:

WARNING

Warning indicates a hazardous situation which, if not avoided, could result in death or serious injury. It is important

not to proceed until all stated conditions are met and clearly understood.

CAUTION

CAUTION indicates a hazardous situation which, if not avoided, could result in minor or moderate injury. It is

important not to proceed until all stated conditions are met and clearly understood.

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WARNING

• Therearenobio-hazardousmaterialswithintheunit;howeverthisunitcouldbeusedwithbio-hazardoussamples.

Before using the instrument, the customer should have in place decontamination procedures designed to protect

laboratory workers from occupationally acquired infections. The sample chamber cell holders are removable and

may be decontaminated using the appropriate disinfectant for the bio hazard in question, rinsed with distilled

water and then allowed to dry. The sample chamber and exterior may be wiped with a suitable disinfectant

cleaning wipe. It is the responsibility of the customer to ensure that the user of the equipment is provided with a

safe working environment.

• AnychemicalsusedinAnalysesshouldbeused,storedanddisposedofinaccordancewithmanufacturer’s

guidelines and local safety regulations.

• ToxicFumes.Efficientlaboratoryventilationmustbeprovidedwhenworkingwithvolatilesolventsortoxic

substances.

• Wastedisposal.Disposalofsomesolventsandchemicalsmaybeclassedashazardouswasteandmustbedealt

with in accordance with local regulatory practice.

• Personalprotectiveequipment.ThisisnotrequiredtooperatetheunitbutthesamplesmeasuredmayrequirePPE.

A local risk assessment should be carried out.

• Decontamination.Equipmentreturnedforrepairshouldincludeanappropriatedecontaminationcertificate.

1.4. General Safety

This equipment has been designed to conform to the following directives

2006/95/EC Low voltage directive (LVD)

2004/108/EC Electromagnetic Compatibility (EMC) directive

2012/19/EU Waste Electrical and Electronic Equipment directive recast (WEEE Recast)

2011/65/EU Restriction on the use of certain hazardous substances (ROHS) directive

2006/42/EC Machinery directive

1999/5/EC Radio and Telecommunications terminal equipment directive (Applicable

only to products fitted with Bluetooth communication devices)

Standards, to which conformity is declared, are as follows:

EN61010 - 1:2010 Safety requirements for electrical equipment for measurement,

control and laboratory use. General requirements

EN61326 - 1:2006 Electrical equipment for measurement, control and laboratory

use -EMC Requirements*

EN50581:2012 Technical documentation for the assessment of electrical and

electronic products with respect to the restriction of hazardous

substances.

EN ISO 12100:2010 Safety of machinery-General principles for design, risk

assessment and risk reduction

EN 301 489-1/-17 Electromagnetic Compatibility (EMC) standard for radio

equipmentandservices;Part1:Commontechnical

requirements (Applicable only to products fitted with Bluetooth

communication devices)

EN 300 328 Data transmission equipment operating in the 2,4 GHz ISM

bandandusingwidebandmodulationtechniques;essential

requirements under article 3.2 of the R&TTE Directive.

(Applicable only to products fitted with Bluetooth

communication devices)

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1.5. General Hazards

There a number of warning labels and symbols that may be present on your

instrument. These are there to inform you where a potential danger exists or

particular caution is required. Before commencing installation, please take time to

familiarise yourself with these symbols and their meaning. This instrument is subject

to the following hazards:

CAUTION

Some of the above instruments contain a UV source which generates a light beam that traverses the sample

chamber and is accessible in the lamp chamber. Under normal use the lamp beam is confined within the instrument.

The unit should not be operated with the sample chamber lid open or the lamp housing lid removed as prolonged

exposure to the beam may cause permanent eye damage.(Not applicable to Ultrospec 10, Novaspec III/Plus)

WARNING

HighvoltagesexistinsidetheUltrospec2100/7000/8000/9000,GeneQuant100/1300,SimpliNanoandNanoVuePlus

instruments. Repair and maintenance should only be carried out by individuals trained specifically to work on these

instruments.

CAUTION

These instruments may be connected to a separate PC. To preserve the integrity of the measuring equipment it is

essential that the attached PC itself conforms to basic safety and EMC standards and is set up in accordance with

themanufacturers’instructions.IfindoubtconsulttheinformationthatcamewithyourPC.Incommonwithall

computer operation the following safety precautions are advised.

•To reduce the chance of eye strain, set up the PC display with the correct viewing position, free from glare and with

appropriate brightness and contrast settings.

• To reduce the chance of cross contamination from biological samples, use appropriate personnel protection

measures and disinfectant wipes on keyboard and mouse

CAUTION, HOT SURFACE

• These instruments may be fitted with heated cell holder accessories that depending on operation may become hot

to touch. Care should be taken to avoid touching the heated accessory when running at elevated temperatures

1.6. Unpacking and installation

NanoVue Plus instrument External power supply

• Inspecttheinstrumentforanysignsofdamagecausedduringtransit.Ifany

damage is discovered, do not use the instrument and report the problem to your

supplier.

• Ensureyourproposedinstallationsiteconformstotheenvironmentconditionsfor

safe operation

 • Indooruse

 • 5to40°C

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• Maximumrelativehumidity90%upto31°Cdecreasinglinearlyto50%at40°C

• Extremesoftemperaturemayrequirerecalibrationoftheunitforoptimum

performance

• Iftheinstrumenthasbeenstoredinacoldenvironmentthenitshouldbeallowed

to come to thermal equilibrium for 2 to 3 hours before operation so that start up

calibration is not compromised by condensation.

• Theinstrumentmustbeplacedonastable,levelbenchortablecapableoftaking

its weight with sufficient space around the instrument for ventilation to circulate

freely.

• Theequipmentmustbeconnectedtothelocalsupplyoutletusingtheprovided

power cables, compatible voltages are shown in the table below. Replace power

inlet fuses only with the same type and rating as follows

Instrument Type Power requirements Replacement Fuse

Ultrospec 10 units 100–240 V AC 50–60 Hz 3 A (UK plug only)

Novaspec III and Novaspec Plus 100–240 V AC 50–60 Hz 3 A (UK plug only)

GeneQuant100&1300units 100–240 V AC 50–60 Hz 3 A (UK plug only)

Ultrospec 2100 units 85–264 V AC, 50–60 Hz T 2 A H 250 V AC (Anti-Surge,

High breaking capacity)

Ultrospec 7000/8000/9000 units 85–264 V AC, 50–60 Hz T 1.6 A H 250 V AC (Anti-Surge,

High breaking capacity)

SimpliNano units 100–240 V AC 50–60 Hz 3 A (UK plug only)

NanoVue Plus units 90–250v, 50/60Hz, Max 30 VA 3 A (UK plug only)

• Theinstrumentshouldbepositionedsothatthepowercablemaybereadily

removed in the event of a hazard or malfunction occurring.

• Sitetheinstrumentinanatmospherefreefromdustandcorrosivefumes.

• Ultrospec2100instrumentshavetheon/offswitchonthebackoftheinstrument

on the right hand side. Ultrospec 7000/8000/9000 instruments have the on/off

switch on the left hand side of the instrument. Ultrospec 10, Novaspec III/Plus,

GeneQuant100/1300,SimpliNanoandNanoVueinstrumentshaveanon/off

button on the keypad – to disconnect power from these units remove the power

lead from the instrument. The instruments will automatically perform some start

up self diagnostic checks, please wait for these to finish before attempting to use

the equipment.

• Thespectrophotometermaybefittedwitharangeofaccessoriesforspecific

applications.FortheGeneQuant100/1300andNanoVuePlustheseincludeabuilt

in printer, bluetooth or SD card accessory. The SimpliNano has an optional built-

in printer. The Ultrospec 2100/7000/8000/9000 have a range of accessories that

can be fitted in the sample compartment including a sipper, long path length cell

holder and thermostatted cell holder. Full instructions on fitting accessories are

within the instrument or accessory user manual.

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All spectrophotometers are operated in the same generic way by comparing the

amount of light Absorbed by a sample when compared to a reference solution:

2.1. Preparation before starting

• Theinstrumentisswitchedonandallowedtoinitialise,Ultrospec10,

NovaspecIII/Plus,GeneQuant100/1300,SimpliNanoandNanoVuePlusunitshave

the on/off switch on the keypad.

• Ultrospec2100unitshaveanon/offswitchonthebackoftheinstrumentonthe

right hand side.

• Ultrospec7000/8000/9000instrumentshavetheon/offswitchonthelefthand

side of the instrument.

• Therelevantsoftwaremodulefortheapplicationbeingcarriedoutisselectedfrom

within the instrument software e.g. fixed wavelength measurement, concentration

measurement, wavelength scan, kinetics measurement or a dedicated method

such as DNA concentration & purity. The options within the application set up the

instrument parameters such as wavelength and define any calculations taking

place on the measured results.

2.2. Performing a run - cuvettes

• OntheUltrospec10,NovaspecIII/Plus,GeneQuant100/1300andUltrospec

2100/7000/8000/9000 units, samples are measured in a cuvette. A suitable

cuvette must be used for the application to be carried out – it must be of the

correct material to allow the selected wavelength of light to pass through and

must be of the correct physical size to fit the relevant instrument and the sample

volume available. The cuvette is filled with a solution of reference material which

is typically the solution that the sample is dissolved in, the cuvette is placed in the

cell holder in the correct orientation as per the diagrams below:

Ultrospec 10, front to back All other units, right to left

• TheinstrumentisthenzeroedbypressingtheZerokeyonthekeypad:

2. OPERATING AND

MAINTENANCE

Ultrospec10NovaspecIII/PlusGeneQuant100/1300Ultrospec2100

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• Thereferencesolutionisthenremoved,thecuvettefilledwiththesampleandthesamplemeasuredbypressingtherun

button on the keypad. The measured results will be displayed on the instrument display.

• TheUltrospec7000/8000/9000instrumentshaveacoloredTouchscreenforoperationandadoublebeamoptical

system. In normal operation a cuvette filled with reference solution is put in the rear cell holder , a cuvette filled with

sample in the front cell holder, the relevant application method is loaded and the Run Icon pressed. If a single cell is being

usede.g.amicrocellitshouldbefilledwithreferencesolution,placedinthefrontcellholder,theZeroiconpressed,the

cuvette filled with sample, placed in the front cell holder and the Run Icon pressed

• Typicalresultsscreen(DNAapplicationGeneQuant)

2.3. Performing a run - micro volume instruments

• OntheSimpliNanounitssamplesaremeasuredinasampleport.Usingapipette

a solution of reference material, which is typically the solution that the sample is

dissolved in, is dropped onto the measurement position in the sample port and the

instrument zeroed by pressing the Reference key on the keypad .

Zero Run

Ultrospec10NovaspecIII/PlusGeneQuant100/1300Ultrospec2100

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Thereferencesolutionisthenwipedawaywithatissue;thesampleispipettedinto

place and measured by pressing the run button on the keypad.

•Themeasuredresultswillbedisplayedontheinstrumentdisplay.

• OntheNanoVuePlusunitssamplesaremeasuredonasampleplate.Usinga

pipette a solution of reference material, which is typically the solution that the

sample is dissolved in, is dropped onto the measurement position on the sample

plate and the instrument zeroed by pressing the Reference key on the keypad.

• Thereferencesolutionisthenwipedawaywithatissue;thesampleispipettedinto

place and measured by pressing the run button on the keypad.

• Themeasuredresultswillbedisplayedontheinstrumentdisplay.

2.4. Post run procedures

Cuvettes – empty cuvette of sample and rinse with deionised water. Cuvettes may be

periodically cleaned by using commercially available cell cleaning solutions or dilute

detergent solutions but should always be rinsed in deionised water.

SimpliNano – wipe the sample port with a dry, lint-free tissue between samples and

at the end of the run, this is sufficient to remove sample. If more thorough cleaning is

desired, the port can also be cleaned with dilute (2%) detergent solution, followed by

isopropyl alcohol.

NanoVue Plus – wipe sample with tissue. At end of sample run wipe plates with tissue

wetting with deionised water. The plates can also be cleaned with isopropyl alcohol

or a dilute detergent solution but the plates should always be rinsed with deionised

water after cleaning.

Sample disposal

•

Waste disposal. Disposal of some solvents, chemicals or samples may be classed as hazardous or bio hazardous waste

and must be dealt with in accordance with local regulatory practice.

2.5. User Maintenance

Instrument Type User Maintenance

Ultrospec 10 units None

Novaspec III and Novaspec Plus Changing Tungsten lamp, removal of cell

holder for cleaning

GeneQuant100&1300units

Ultrospec 7000 unit Removal of cell holder for cleaning

Ultrospec 2100 Removal of cell changer for cleaning

Reference Key

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Ultrospec 8000 & 9000 units Changing Deuterium/Tungsten lamps,

removal of cell holders for cleaning

NanoVue Plus units Cleaning of sample plates, recalibration of

pathlength

SimpliNano units Cleaning of sample port

2.6. Novaspec III/Plus Lamp Change

1. Switch off the instrument, remove the sample from the cell holder and disconnect

the power supply cord

2. Remove the protective layers at the lamp access and plug in points on the

underneath of the instrument

3. Remove the lamp wires from the groove by gently unclipping it

4. Remove the lamp by twisting the lamp assembly counter-clockwise

5. Remove the lamp connection end by gently pulling with your fingers

6. Replace with new lamp using the reverse of these actions

7. Dispose of the faulty lamp in accordance with local regulatory practice.

2.7. Ultrospec 8000/9000 Lamp Change

1. Switch the instrument off, disconnect the power supply cord and allow lamps to

cool.

2. Locate the lamp access cover at the rear of unit and remove the two top screws

and slide top cover back and lift off. Never operate the unit with the lamp

housing cover removed.

4. Remove the lamp and dispose of in accordance with local regulatory practice.

5. Follow the handling instructions supplied with the lamp. Do not touch the glass

envelopes of the replacement bulbs directly.

6. Replace the lamp cover and screw securely.

7. Attach power cord, switch on and wait at least 30 minutes for the unit to warm

up.

8. Perform a new instrument baseline (on all bandwidth settings if variable

bandwidth unit) and save this as the permanent baseline (see the online help or

user manual).

9. Reset the lamp hours after replacing the lamp (see the online help or user

manual).

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3. TROUBLESHOOTING

Detailed in the table below are the most common faults found whilst using our

spectrophotometers

Instrument Problem Possible causes

Ultrospec 10 A flashing Absorbance reading of 2.00 Abs is

obtained.

This indicates an Absorbance of more than

1.99 and is therefore out of range. The

sample needs to be diluted.

Ultrospec 10 REF is displayed when T is pressed. The instrument has not been zeroed

before a sample measurement has been

attempted.

All instruments A negative reading is obtained. In normal measurements the test sample

has a positive Absorbance compared to that

of the Reference. Negative readings will be

obtained if the Reference and Test cuvettes

are mixed up.

All instruments Unexpected results are obtained. Any bubbles in solution will produce

considerable error.

All instruments Absorbance values higher than expected. Possible issue with optical alignment.

Contact service support.

All instruments Absorbance values lower than expected. Check sample cuvette filled to 20 mm from

base of cuvette.

Possible stray light issue. Contact service

support.

All cuvette models Instrument will not zero. Cuvette placed in wrong orientation, Wrong

cuvette material used for wavelength.

Novaspec III Error code 001 symbol . Lamp needs changing.

Novaspec III

Error code 006 symbol .

Pixel clock too high. Instrument needs

optical alignment. Contact service support.

Novaspec III Error code Flashing number! Wavelength accuracy failure. Instrument

needs optical alignment. Contact service

support.

Novaspec plus X against Lamp on initialisation screen. Lamp needs changing.

Novaspec plus X against Wavelength calibration on

initialisation screen.

Check sample beam is clear when

instrument switched on.

Novaspec plus - against all calibration items on

initialisation screen.

Instrument needs optical realignment or

reprogramming. Contact service support.

GeneQuant100/1300,

Ultrospec 2100,

Ultrospec 7000/8000/9000

Poor reproducibility on DNA concentration

and purity measurements.

Wrong cuvette being used – not a 15 mm

beam height or wrong material – not letting

UV light pass through.

Background correction mode not switched

on.

Measured Absorbance too low, should be

>0.1 A for accurate results.

GeneQuant100/1300,

Ultrospec 2100,

Ultrospec 7000/8000/9000

Instrument fails start up calibration check. Check sample and reference beams are

clear when instrument switched on.

GeneQuant100/1300,Ultrospec

2100/7000/8000/9000 report failure

message to service support.

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Ultrospec 10, Novaspec III/Plus,

GeneQuant100/1300,NanoVue

Plus, SimpliNano

Instrument switches off after calibration. You may be keeping you finger on the ON/

OFF button too long, so that the instrument

receives both ON and OFF signals and

switches off after the calibration.

Try adjusting the timing of your finger press

at switch on.

SimpliNano Instrument fails to initialise – “cell holder

obstructed UV” error message.

Ensure sample port is clean and there is no

dried on sample

SimpliNano Absorbance readings unstable EnsureReferenceQAswitchedon.

Ensure Background correction is switched

on.

Ensure 2 µl sample being used

NanoVue Plus Instrument fails to initialise – “cell holder

obstructed UV” error message.

Ensure sample plates are clean.

NanoVue Plus Absorbance readings unstable. EnsureReferenceQAswitchedon.

Ensure Background correction is switched

on.

Ensure 2 µl sample being used.

NanoVue Plus Absorbance readings stable but incorrect. Check pathlength calibration.

Detailed instructions on how to carry out the above user maintenance and trouble

shooting for the different models may be found in the relevant user manual supplied

on a CD with the instrument.

3.1. Emergency Procedures

In the event of a malfunction or hazard occurring, the user responsible shall

disconnect the unit from power and isolate the instrument for decontamination by an

appropriate means if bio hazardous material is spilt on, in or around the instrument.

Ultrospec 2100 instruments have the on/off switch on the back of the instrument on

the right hand side. Ultrospec 7000/8000/9000 instruments have the on/off switch on

the left hand side of the instrument.

Ultrospec10,NovaspecIII/Plus,GeneQuant100/1300,SimpliNanoandNanoVueand

instruments have an on/off button on the keypad – to disconnect power from these

units remove the power lead from the instrument.

3.2. Recycling Procedures

This equipment should be decontaminated before decommissioning and all local

regulations shall be followed with regard to scrapping of the equipment.

3.3. Recycling of hazardous substances

Spectrophotometers contain hazardous substances. Detailed information is available

from your local GE representative.

3.4. Disposal of electrical components

Waste of electrical and electronic equipment must not be disposed of as unsorted

municipal waste and must be collected separately. Please contact an authorized

representative of the manufacturer for information concerning the decommissioning

of your equipment.

29-0047-78 AC 04-2014 13

3.5. Specifications

Specification SimpliNano NanoVue Plus Ultrospec

9000

Ultrospec

8000

Ultrospec

7000

Ultrospec

2100

GeneQuant

1300

GeneQuant

100

Novaspec

Plus

Novaspec III Novaspec 10

Wavelength

Range 190–1100 nm 200–1100 nm 190–1100 nm 190–110 190–900 nm 190–900 nm 330–800 nm 600 nm dedicated

Light Source Xenon Xenon Deuterium/Tungsten Xenon Xenon Xenon Tungsten 600 nm LED

Bandwidth 5 nm 5 nm

0.5 nm,

1.0 nm,

2 nm,

4 nm

1.0 nm 2.0 nm < 3 nm 5 nm < 7 nm 40 nm

Absorbance

Range (A) -0.3 to 50A

0 to 125 A

(10 mm

pathlength

equivalence)

-4 A to 4 A -3 A to 3 A -0.3 A to 2.5 A - 0.3 A to 1.99 A

Pathlength 0.5 mm 0.5 mm,

0.2 mm 1 mm to 100 mm 10 mm

Wavelength

Accuracy

± 2 nm across

range,

± 1 nm from

240 nm to

330nm

± 2 nm across

range,

± 1 nm from

240 nm to

330nm

± 0.3 nm ± 0.5 nm ± 1 nm ± 2 nm ± 2 nm N/A

Absorbance

Accuracy

+/-1%at

259 nm at

0.7–0.8 A using

uraci

+/-1%at

259 nm at

0.7–0.8 A

using uraci

± 0.002 A at 0.5 A

± 0.004 A at 1 A

± 0.006 A at 2 A

at 440 nm, 465 nm, 546.1 nm,

590 nm, 635 nm

± 0.005 A using 60 mg/l K2Cr2O7

within0.5%of

Absorbance

value to 3.000 A

at 546 nm

±0.005Absor1%ofthe

reading, whichever is the

greater at 546 nm

±2.0%or±0.010Ato

1.000A at 546nm, whichever

is the greater

<± 0.05 A at 1

A using Neutral

Density Filters

Full specification and operating instructions are contained within the relevant user manual.

3.6. Manufacturing information

Requirement Content

Name and address of manufacturer

Biochrom Ltd, 22 Cambridge Science

Park, Milton Road, Cambridge,

CB4 0FJ, UK

Name and ID notified body dB Technologies (Cambridge) Ltd. FCC

reg. no 90528

Place and date of declaration

NanoVue Plus Family

GeneQuantFamily

Novaspec Family

Ultrospec 10, 2100Family

Ultrospec 7000, 8000, 9000 Family

SimpliNano Family

Cambridge, September 2013

Cambridge October 2013

Identity of person authorized to sign DoC Howie Pether, Managing Director

Full specification and operating instructions are contained within the relevant user manual.

29-0047-78 AC 04-2014 14

4. LEGAL

GE, GE monogram and imagination at work are trademarks of General Electric

Company.

Nanovue and SimpliNano are trademarks of GE Healthcare Company or one of its

subsidiaries.

Ultrospec,NovaspecandGeneQuantaretrademarksofBiochromLtd.

All other third party trademarks are the property of their respective owner.

First published September 2011

All goods and services are sold subject to the terms and conditions of sale of the

company within GE Healthcare which supplies them. A copy of these terms and

conditions is available on request. Contact your local GE Healthcare representative

for the most current information.

http://www.gelifesciences.com

GE Healthcare UK Limited

Amersham Place, Little Chalfont,

Buckinghamshire, HP7 9NA UK

GE Healthcare Bio-Sciences AB

Björkgaton, 30 751 84,

Uppsala, Sweden

GE Healthcare Europe GmbH

Munzinger Strasse, 5 D-79111,

Freiburg, Germany

GE Healthcare Bio-Sciences Corp

800 Centennial Avenue, PO Box 1327,

Piscataway, NJ 08855-1327, USA

GE Healthcare Japan Corporation

Sanken Bldg 3-25-1, Hyakunincho Shinjuku-ku,

Tokyo, 169-0073, Japan

29-0047-78 AC 04-2014 15

Page intentionally left blank

GE Healthcare offices:

GE Healthcare Bio-Sciences AB

Björkgatan 30, 751 84 Uppsala,

Sweden

GE Healthcare Europe GmbH

Munzinger Strasse 5, D-79111 Freiburg,

Germany

GE Healthcare Bio-Sciences Corp.

800 Centennial Avenue, P.O. Box 1327,

Piscataway, NJ 08855-1327,

USA

GE Healthcare Japan Corporation

Sanken Bldg. 3-25-1, Hyakunincho,

Shinjuku-ku, Tokyo 169-0073,

Japan

For contact information for your local office,

please visit: www.gelifesciences.com/contact

GE Healthcare Limited

Amersham Place

Little Chalfont, Buckinghamshire,

HP7 9NA, UK

http://www.gelifesciences.com

imagination at work

29-0047-78 AC 04-2014

imagination at work

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