태그 보관물: Fluorescence

CHROMA

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Abberior Cage 500

Abberior Cage 532

Abberior Cage 590

Abberior Cage 635

Abberior Flip 565

Abberior Live 510

Abberior Live 515

Abberior Live 580

Abberior rsEGFP

Abberior rsEGFP2

Abberior Star 440SXP

Abberior Star 470SXP

Abberior Star 488

Abberior Star 512

Abberior Star 520SXP

Abberior Star 600

Abberior Star 635

Abberior Star 635p

Abberior Star Red

Acridine Orange + DNA

If workers must detect fluorescence from both RNA and DNA-bound Acridine Orange a longpass set such as 49012 is recommnded. 49011, 39002 may be used with LEDs with CWL 465-495nm; 49002 may be used with 455-485nm CWL LEDs.

Acridine Orange + DNA and RNA

49012 may be used with LEDs with CWL 465-495nm; 19002 may be used with 470-490nm CWL LEDs.

Acridine Orange + RNA

39009 may be used with LEDs with CWL 470-490nm; 49024 may be used with 430-450nm CWL LEDs.

Alexa Fluor 350™

49000 may be used with LEDs with CWL 350-365nm; 39000 may be used with 365-380nm CWL LEDs.

Alexa Fluor 405

49021 may be used with LEDs with CWL 400-410nm.

Alexa Fluor 488™

49011, 39002 may be used with LEDs with CWL 465-495nm; 49002 may be used with 455-485nm CWL LEDs.

Alexa Fluor 514™

49003, 39003 may be used with LEDs with CWL 490-505nm; 49023 may be use with 485-515nm CWL LEDs.

Alexa Fluor 532™

49014 may be used with LEDs with CWL520-540nm.

Alexa Fluor 546™

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

Alexa Fluor 555™

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

Alexa Fluor 568™

49031 may be used with LEDs with CWL from 560-580nm; 49008, 39010 may be used with 545-575nm LEDs.

Alexa Fluor 594™

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

Alexa Fluor 610™

Alexa Fluor 633™

49015 may be used with LEDs with CWL 585-620nm.

Alexa Fluor 647™

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs; 49009 may be used with 625-650nm CWL LEDs.

Alexa Fluor 680™

49022 may be used with LEDs with CWL 635-665nm.

Alexa Fluor 700™

49022 may be used with LEDs with CWL 635-665nm.

Alexa Fluor 750™

49007 may be used with LEDs with CWL 685-740nm.

Alexa Fluor 790™

49037 may be used with LEDs with CWL 725-755nm.

Allophycocyanin (APC)

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs.

AmCyan

49001, 39001 may be used with LEDs with CWL 430-440nm.

AsRed2

49005, 49305 may be used with LEDs with CWL 535-555nm.

Atto 390

49028 may be used with LEDs with CWL385-405nm.

Atto 425

49013 may be used with LEDs with CWL 435-455nm; 39001 may be used with 430-440nm CWL LEDs.

Atto 465

49002 may be used with LEDs with CWL 455-485nm.

Atto 488

49011, 39002 may be used with LEDs with CWL 470-490nm; 49003 set may be used with 490-505nm LED.

Atto 550

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

Atto 633

49015 may be used with LEDs with CWL 585-620nm.

Atto 647N

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs; 49009 may be used with 625-650nm CWL LEDs.

Atto 680

49022 may be used with LEDs with CWL 635-665nm.

Auramine

JNO-19008 may be used with LEDs with CWL 435-470nm.

Auramine-rhodamine

19002 may be used with LEDs with CWL 470-490nm.

Azami Green

49002 may be used with LEDs with CWL 455-485nm; 49020 may be used with 475-485nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

BB515

49308 may be used with LEDs with CWL 475-495nm. 49303 may be used with 490-505nm CWL LEDs. 49303 is only recommended when multiplexing with BV480.

BCECF/pH 5.2

BCECF/pH 9.0

Biosearch Blue

49000 may be used with LEDs with CWL 350-365nm; 39000 may be used with 365-380nm CWL LEDs and 49028 may be used with 385-400nm CWL LEDs.

BODIPY FL/pH7.2

49011, 39002 may be used with LEDs with CWL 470-490nm; 49003 set may be used with 490-505nm LED.

Brilliant Violet™ 421

49027 may be used with LEDs with CWL 385-405nm.

Brilliant Violet™ 480

49032, 49302 and 49001 may be used with LEDs with CWL 430-440nm.

Brilliant Violet™ 510

Brilliant Violet™ 570

Brilliant Violet™ 605

Brilliant Violet™ 650

Brilliant Violet™ 711

Brilliant Violet™ 750

Brilliant Violet™ 786

Brilliant™ Ultraviolet 395

Brilliant™ Ultraviolet 496

Brilliant™ Ultraviolet 661

Brilliant™ Ultraviolet 737

Brilliant™ Ultraviolet 805

CAL Fluor® Gold 540

49023 may be use with LEDs with CWL 490-520nm; 49014 may be used with 520-540nm CWL LEDs.

CAL Fluor® Orange 560

49014 may be used with LEDs with CWL520-540nm; 49023 may be use with 490-520nm CWL LEDs.

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CAL Fluor® Red 590

49031 may be used with LEDs with CWL from 560-580nm; 49005 may be used with 535-555nm CWL LEDs and 39004 may be used with 535-550nm CWL LEDs

CAL Fluor® Red 610

49306 may be used with LEDs with CWL 570-595nm; 49008, 39010 may be used with 545-575nm CWL LEDs.

CAL Fluor® Red 635

49015 may be used with LEDs with CWL 585-620nm.

Calcein

49011, 39002 may be used with LEDs with CWL 470-490nm; 49003 set may be used with 490-505nm LED.

Calcium Green™-1

49011, 39002 may be used with LEDs with CWL 470-490nm; 49003 set may be used with 490-505nm LED.

Calcofluor White

Calcofluor White is a commonly used stain to detect fungi and yeast and other microorganisms. It is a non-specific stain which preferentially binds to chitin and cellulose in cell walls and as such is also used to visualize plant cells. Calcofluor White has extremely broad excitation/emission spectra, and as a result almost any filter set with UV or violet/blue excitation wavelengths will generate fluorescence emission which may be detected across a very broad range. Some samples will fluoresce strongly in the green wavelengths, others in the blue, and others yellow-orange. Because of this, filter selection is subjective, partly depending on the experience of the microscopist. Our filter sets 19012, 19000, and 19011 may be used successfully depending on the sample and the observer’s preference. 19000 and 19012 may be used with LEDs with CWL 365-380nm; 19011 may be used with 395-410nm CWL LEDs.

Cerulean

49001, 39001 may be used with LEDs with CWL 430-440nm.

CFP

49001, 39001 may be used with LEDs with CWL 430-440nm.

Citrine

49003, 39003 may be used with LEDs with CWL 490-505nm.

Coumarin

49000 may be used with LEDs with CWL 350-365nm; 39000 may be used with 365-380nm CWL LEDs, 19011 may be used with 395-410nm CWL LEDs.

Cy2™

49011, 39002 may be used with LEDs with CWL 470-490nm; 49003 set may be used with 490-505nm LEDs.

Cy3.5™

49031 may be used with LEDs with CWL from 560-580nm; 49008, 39010 may be used with 545-575nm LEDs.

Cy3™

49004, 49005 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

Cy5.5™

49022 may be used with LEDs with CWL 635-665nm.

Cy5™

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs; 49009 may be used with 625-650nm CWL LEDs.

Cy7™

49007 may be used with LEDs with CWL 685-740nm.

DAPI

49000 may be used with LEDs with CWL 350-365nm; 39000 may be used with 365-380nm CWL LEDs, 49028 may be used with 385-400nm CWL LEDs.

Di-8-ANEPPS non-ratiometric

39009 may be used with LEDs with CWL 470-490nm.

Di-8-ANEPPS, ratiometric

This dye and the related dye, Di-4-ANEPPS, are most effectively used as ratiometric indicators of membrane potential. Increases in membrane potential are indicated by a decrease in fluorescence intensity with approx. 440nm excitation and an increase in fluorescence intensity with approx. 530nm excitation. Use of this 71006 filter set requires an external filter wheel to house the 2 excitation filters and to facilitate rapid switching of filters for ratiometric measurements.

DiA

49024 may be used with LEDs with CWL 425-455nm; 39009, 19010 may be used with 470-490nm CWL LEDs.

DiD

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs.

DiI

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

DiO

49002 may be used with LEDs with CWL 455-485nm; 49020 may be used with 475-485nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

DiR

49007 may be used with LEDs with CWL 685-740nm.

Draq5

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs.

DsRed

49004 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

DyLight 350

49000 may be used with LEDs with CWL 350-365nm; 39000 may be used with 365-380nm CWL LEDs.

DyLight 405

49021 may be used with LEDs with CWL 400-410nm; 19011 may be used with 395-410nm CWL LEDs.

DyLight 488

49011, 39002 may be used with LEDs with CWL 465-495nm; 49002 may be used with 455-485nm CWL LEDs.

DyLight 549

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

DyLight 594

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

DyLight 633

49015 may be used with LEDs with CWL 585-620nm.

DyLight 649

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs; 49009 may be used with 625-650nm CWL LEDs.

DyLight 680

49022 may be used with LEDs with CWL 635-665nm.

DyLight 750

49007 may be used with LEDs with CWL 685-740nm.

DyLight 800

49037 may be used with LEDs with CWL 725-755nm.

EBFP2

49028 may be used with LEDs with CWL 385-400nm, 49021 may be used with 400-410nm CWL LEDs.

ECFP

49001, 39001 may be used with LEDs with CWL 430-440nm.

EGFP

49002 may be used with LEDs with CWL 455-485nm; 49020 may be used with 475-485nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

Emerald GFP

49002 may be used with LEDs with CWL 455-485nm; 49020 may be used with 475-485nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

Eosin

49023 may be used with LEDs with CWL 490-520nm.

Ethidium Bromide

49005 may be used with LEDs with CWL 535-555nm; 39009 may be used with 470-490nm CWL LEDs.

Ethidium homidimer-1/DNA

49005 may be used with LEDs with CWL 535-555nm; 39005 may be used with 535-550nm CWL LEDs.

EYFP/pH 7

49003, 39003 may be used with LEDs with CWL 490-505nm.

FAM

49011, 39002 may be used with LEDs with CWL 465-495nm; 49002 may be used with 455-485nm CWL LEDs.

FITC

49011, 39002 may be used with LEDs with CWL 465-495nm; 49002 may be used with 455-485nm CWL LEDs.

FlAsH-CCPFCC

49003, 39003 may be used with LEDs with CWL 490-505nm.

Fluo-3

49003 may be used with LEDs with CWL 490-505nm; 49011 may be used with 465-495nm CWL LEDs.

Fluo-4

49011, 39002 may be used with LEDs with CWL 465-495nm; 49002 may be used with 455-485nm CWL LEDs.

FluoroGold

This dye has mainly been used as a retrograde neuronal tracer, although it can also distinguish between DNA and RNA binding according to its fluorescence emission. With two excitation peaks at approx. 330nm and 390nm, and two emission peaks at approx. 450nm and 600nm, our DAPI longpass filter sets 49025 and 19012 are appropriate for detection of the fluorescence emission associated with the both peaks, which together appear “gold”. The 49025 set is also useful for distinguishing between FluoroGold bound to DNA or RNA.

FM™ 1-43

39009, 19010 may be used with LEDs with CWL 470-490nm.

FM™ 4-64

For imaging applications using a monochrome camera, this longpass filter set will not distinguish FM 4-64 from TRITC or similar orange/red fluorochromes. To be able to distinguish between FM 4-64 and TRITC or Texas Red-like fluorochromes, contact us for a custom filter set. 19010 may be used with LEDs with CWL 470-490nm; 19006 may be used with 545-575nm CWL LEDs.

Fura Red/Ca2+ – saturated

Fura Red/Ca2+ -free

Fura-2/Ca2+ – free

Fura-2/Ca2+ – saturated

FusionRed

49008, 39010 and 49017 may be used with LEDs with CWL 545-575nm.

GFP

EGFP spectra used here; similar to Emerald GFP, TagGFP, Azami Green, mWasabi, etc.49002 may be used with LEDs with CWL 455-485nm; 49020 may be used with 475-485nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

HEX,SE

49014 may be used with LEDs with CWL520-540nm; 49023 may be use with 485-515nm CWL LEDs.

Hoechst 33258

49000 may be used with LEDs with CWL 350-365nm; 39000 may be used with 365-380nm CWL LEDs.

Indo-1/Ca2+ -free

79006 may be used with LEDs with CWL 365nm.

Indo-1/Ca2+ -saturated

79006 may be used with LEDs with CWL 365nm.

Indocyanine Green

The spectral properties of ICG are strongly dependent on its concentration and the solute it is bound to, so care must be taken by workers to characterize their particular model system. This filter set 49030 is appropriate for most applications involving protein-bound ICG in various physiological media. ICG becomes concentrated in lipid environments, greatly shifting its spectral properties. 49030 may be used with LEDs with CWL 755-795nm.

JC-1 non-ratiometric

JC-1 exists as a monomer at low concentrations and/or low membrane potentials and displays fluorescence ex./em. maxima similar to that of YFP. At higher concentrations and/or higher membrane potentials, JC-1 forms aggregates with a red-shifted emission maxima of 590nm and a broadened excitation spectra. The 49012 longpass filter set will allow detection of JC-1 monomer and aggregate simultaneously. 49012 may be used with LEDs with CWL 465-495nm; 19002 may be used with 470-490nm CWL LEDs.

JC-1 ratiometric

JC-1 exists as a monomer at low concentrations and/or low membrane potentials and displays fluorescence ex./em. maxima similar to that of YFP. At higher concentrations and/or higher membrane potentials, JC-1 forms aggregates with a red-shifted emission maxima of 590nm and a broadened excitation spectra. Use of this 71019 filter set requires an external filter wheel to house the 2 emission filters to facilitate rapid switching of filters for ratiometric measurements.

JOE

49023 may be use with LEDs with CWL 485-515nm.

Killer Red

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

Li-Cor IRDye® 680LT

49022 may be used with LEDs with CWL 635-665nm.

Li-Cor IRDye® 800CW

Lucifer Yellow

49026 may be used with LEDs with CWL 390-415nm; 39008 may be used with 405-430nm CWL LEDs.

LysoTracker Blue/MeOH

49028 may be used with LEDs with CWL 385-400nm; 49000 may be used with LEDs with CWL 350-365nm; 39000 may be used with 365-380nm CWL LEDs.

LysoTracker Green/pH 5.2

49002 may be used with LEDs with CWL 455-485nm; 49020 may be used with 475-485nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

LysoTracker Red/pH 5.2

49008 may be used with LEDs with CWL 545-575nm; 49305 may be used with 535-550nm CWL LEDs.

LysoTracker Yellow HCK-123

49023 may be used with LEDs with CWL 485-515nm; 39009 may be use with 470-490nm CWL LEDs.

mCherry

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

mCitrine

49003, 39003 may be used with LEDs with CWL 490-505nm; 49023 may be use with 490-520nm CWL LEDs.

MitoTracker Deep Red 633/MeOH

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs; 49009 may be used with 625-650nm CWL LEDs.

MitoTracker Green FM/MeOH

49002 may be used with LEDs with CWL 455-485nm; 49011 may be used with 465-495nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

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MitoTracker Orange/MeOH

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

MitoTracker Red/MeOH

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

mKate2

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

mKeima Red

49024 may be used with LEDs with CWL 430-450nm.

mKO

49014 may be used with LEDs with CWL 520-540nm; 49010 is not appropriate for use with LEDs because the bandwidth is too narrow.

mOrange2

49014 may be used with LEDs with CWL 520-540nm; 49010 is not appropriate for use with LEDs because the bandwidth is too narrow.

mPlum

49017, 19006 may be used with LEDs with CWL 545-575nm

mRFP1

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

mTFP1

49013 may be used with LEDs with CWL 435-455nm.

mWasabi

49002 may be used with LEDs with CWL 455-485nm; 49020 may be used with 475-485nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

NBD X/MeOH

49011 may be used with LEDs with CWL 465-495nm; 19008 may be used with 435-465nm CWL LEDs.

Nile Blue

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs.

NirFP

49019 may be used with LEDs with CWL 595-640nm.

Oregon Green™ 488

49011, 39002 may be used with LEDs with CWL 470-490nm; 49003 set may be used with 490-505nm LED.

Oregon Green™ 514

49003, 39003 may be used with LEDs with CWL 490-505nm. 49303 may be used with 490-505nm CWL LEDs.

Pacific Blue

49021 may be used with LEDs with CWL 400-410nm; 19011 may be used with 395-410nm CWL LEDs.

Propidium Iodide

49005 may be used with LEDs with CWL 535-555nm; 39005 may be used with 535-550nm CWL LEDs.

Pulsar™ 650

49024 may be used with LEDs with CWL 430-450nm; 39009, 19010 may be used with 470-490nm CWL LEDs.

Qdot 525

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Qdot 545

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Qdot 565

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Qdot 585

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Qdot 605

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Qdot 625

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Qdot 655

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Qdot 705

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Qdot 800

Although the excitation maxima of qdot nanocrystals is in the UV, a broad range of excitation wavelengths may be used.

Quasar® 570

49014 may be used with LEDs with CWL 520-540nm; 49304 may be used with 540-550nm CWL LEDs.

Quasar® 670

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs; 49009 may be used with 625-650nm CWL LEDs.

Quasar® 705

49022 may be used with LEDs with CWL 635-670nm.

R-phycoerythrin

49014 may be used with LEDs with CWL 520-540nm; 19004 may be used with 535-545nm CWL LEDs; 49010 is not appropriate for use with LEDs because the bandwidth is too narrow.

ReAsH-CCPGCC

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

Resorufin

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

Rhod-2

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

Rhodamine 123

49003, 39003 may be used with LEDs with CWL 490-505nm.

Rhodamine 6G

49023 may be use with LEDs with CWL 485-515nm.

Rhodamine Red™-X

49008, 39010 may be used with LEDs with CWL 545-575nm.

ROX

49008, 39010 may be used with LEDs with CWL 545-575nm.

SBFI/Na+ -free

SBFI/Na+ -saturated

SNARF pH 6.0

SNARF pH 9.0

Sulforhodamine 101

49008, 39010 may be used with LEDs with CWL 545-575nm.

SYBR® Green I

49011, 39002 may be used with LEDs with CWL 465-495nm; 49002 may be used with 455-485nm CWL LEDs.

SYTO 9/DNA

49011, 39002 may be used with LEDs with CWL 465-495nm; 49002 may be used with 455-485nm CWL LEDs.

SYTO® 60

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs; 49009 may be used with 625-650nm CWL LEDs.

T-Sapphire

TagBFP

49021 may be used with 400-410nm CWL LEDs, 49028 may be used with 385-400nm CWL LEDs.

TagRFP

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

TAMRA

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

tdTomato

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

TET

49023 may be used with LEDs with CWL 485-515nm.

Tetracycline

Tetramethylrhodamine isothiocyanate

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

Texas Red®

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

Texas Red®-X

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

TO-PRO™-3

49006 may be used with LEDs with CWL 595-640nm; 39007 may be used with 600-635nm CWL LEDs; 49009 may be used with 625-650nm CWL LEDs.

Topaz

49003, 39003 may be used with LEDs with CWL 490-505nm.

TRITC

49004, 49305 may be used with LEDs with CWL 535-555nm; 39004 may be used with 535-550nm CWL LEDs.

TurboFP650

49008, 49017 and 19006 may be used with LEDs with CWL 545-575nm.

wtGFP

19008 may be used with LEDs with CWL 435-470nm; 49002 may be used with 455-485nm CWL LEDs

XTop

X-rhod-1/Ca2+

49008, 39010 may be used with LEDs with CWL 545-575nm; 49306 may be used with 570-595nm CWL LEDs.

ZsGreen1

49002 may be used with LEDs with CWL 455-485nm; 49020 may be used with 475-485nm CWL LEDs; 39002 may be used with 470-490nm CWL LEDs.

ZsYellow

49023 may be use with LEDs with CWL 485-515nm; 49003 set may be used with 490-505nm LED.

AcquCAM, Camera, Fluorescence

AcquCAM 3G

댓글 한 개

AcquCAM 3G

  • USB 3.0 Color Camera
  • 1/1.8 ” Pregius Sensor
  • 2048 x 1536 pixel
  • Trigger input and I/O
  • Cost-effective color camera
  • High Sensitivity Sensor
  • Fast, seamless image transfer
  • Available of images with a very wide field of view
  • Low Noise Sensor
AcquCAM 3G
AcquCAM 3G

AcquCAM 3G color camera has a USB 3.0 interface and is the perfect solution for many industrial automation, quality assurance, security, surveillance and medical applications. The color camera ships with the very sensitive 1/1.8 inch CMOS Pregius  sensor. With up to 60 images per second, the AcuqCAM 3G is a low cost, yet highly versatile imaging solution. The camera includes a C to CS mount adapter, making it compatible to C and CS mount lenses. Using the optional CS to M12 board lens adapter, the camera is
also compatible to M12 board lenses.

Images with AcquCAM 3G

DAPI Sample : bovine pulmonary artery endothelial cell, BPAEC Camera : AcquCAM 3G, Filter Set : JNO-U(B)
DAPI
Filter Set : JNO-U(B)
FITC Sample : bovine pulmonary artery endothelial cell, BPAEC Camera : AcquCAM 3G, Filter Set : JNO-B(B)
FITC
Filter Set : JNO-B(B)
TRITC Sample : bovine pulmonary artery endothelial cell, BPAEC Camera : AcquCAM 3G, Filter Set : JNO-U(B),B(B),G(B)
TRITC
Filter Set : JNO-G(B)
Sample : bovine pulmonary artery endothelial cell, BPAEC Camera : AcquCAM 3G, Filter Set : JNO-U(B),B(B),G(B) Objective lens : UPLNAPO40X, C-mount adapter : 1X Above three images are merged and processed using JNO-ARM
Sample : bovine pulmonary artery endothelial cell, BPAEC Camera : AcquCAM 3G, Filter Set : JNO-U(B),B(B),G(B) Objective lens : UPLNAPO40X, C-mount adapter : 1X Above three images are merged and processed using JNO-ARM

Specification

SpecDescription
Size1/1.8 inch
ResolutionH: 2048, V: 1536
Pixel sizeH: 3.45 µm, V: 3.45 µm
Video formats& Frame rate2048×1536 (3.1 MP) RGB64 @ 60 fps   2048×1536 (3.1 MP) RGB32 @ 60 fps
2048×1536 (3.1 MP) Y16 @ 60 fps 2048×1536 (3.1 MP) Y411 @ 60 fps
2048×1536 (3.1 MP) YUY2 @ 60 fps
Dynamic range8 / 12 bit
Exposure time20 ㎲ to 30s
Lens mountC/Cs mount
InterfaceUSB 3.0
Power supply4.5 to 5.5 VDC
DimensionsH: 29 mm, W: 29 mm, L: 43 mm
Mass65g

AcquCAM 카메라 현미경 관찰법 대응표

AcquCAM 카메라 스펙 비교표

Setup Driver & Software Download

CoolLED

pE-300white

CoolLED pE-300white

Fluorescence Light Source CoolLED-pE-300-white
CoolLED pE-300white

현미경 부착시 사용되는 아답터의 종류

CoolLED Adaptors
CoolLED Adaptors for Direct-fit to a microscope

  • 현미경의 메이커와 종류에  따라 적합한 아답터를 선택하여 설치
  • 광학 얼라인먼트 조정을 필요로 하지 않습니다.
LED 광원 제어 장치 (Control Pod)

CoolLED-pE-300ultra & white
Control pod for CoolLED pE-300 ultra & white

  • 대기 시간 없이 On / Off를 즉각적으로 할수 있습니다.
  • 광량 조절은 1 % 단위로 1 ~ 100 % 까지 설정이 가능합니다.
  • 3개의 채널 설정을  통하여 각 채널의 광량을 각각 설정이 가능하며, 간단한 버튼 조작으로 채널 변경이 가능합니다.

CoolLED pE-300white
CoolLED pE-300 시리즈 스펙트럼 특성표

  • 구형 모델에 비하여 2배의 강해진 출력으로 샘플을 자극합니다.
  • DAPI, CFP, Aqua, FITC, TRITC, TxRed, Cy5 등의 다양한  형광염색에서 사용됩니다.
 수명이 매우 길고 출력이 항상 일정하여  안정적인 광원

예상 수명이 25,000 시간을 초과하는  장시간 수명을 가지고 있기 때문에  소모품 교체 없이  오랜기간 사용이 가능하고, 추가적인 운영 비용없이 안전하고 편리한 조명 시스템입니다.

CoolLED pE-300white   & OLYMPUS _ IX70

CoolLED pE-300white
CoolLED pE-300white with IX70

Click to Down load –  System Diagram pE-300white

CoolLED

PE-4000

 

CoolLED pE-4000

 

Overview

NEW GENERATION LEDs The pE-4000 sets the standard as the universal illumination system for fluorescence microscopy.  The system has 16 selectable LED wavelengths across 4 channels that can be matched to the filters and fluorophores of almost any microscope, making it the broadest spectrum of illumination available.

The CoolLED pE-4000 now benefits from our award winning sustainable Greentechnology and delivers enhanced intensity at your microscope sample plane with a significant reduction in energy consumption, and is supplied with a 3 year warranty after registration.

 

The NEW Enhanced pE-4000 is a powerful 4-channel high-specification LED illumination system. It is flexible, controllable and environmentally friendly.  Benefits include:

SELECTABILITY

  • Choice of 256 wavelength combinations from 16 installed LEDs (365nm -770nm)
  • Choose 1 of 4 wavelengths for each 4 channels on the control pod
  • Unique wavelength grouping concept (see below)
  • Optimum wavelength to suit your experiment
  • Specific wavelength characterisation for optimal optogenetic control of cell responses

Wavelength Grouping Concept

As the first company to introduce LEDs into fluorescence microscopy, CoolLED has developed a comprehensive understanding of the complexities of configuring and selecting filter sets for samples which have multiple stains.  These ’multi-band’ filters must have a corresponding absorption and emission band for each stain and the bands must be kept spectrally separate to ensure there is no overlap.

 

DAPI/FITC/TRITC/Cy5 Quad filter excited by pE-4000 at matched wavelengths shown above.

CoolLED’s innovation comes from recognizing that all the stains used in multi-band work can have their absorption bands divided into four separate groups across the spectrum due to the restricted bandwidth available.  This has allowed the development of a patent-pending, wavelength-grouping concept which makes it possible to deliver more power in an efficient four channel system.

 

With its unique 16 selectable LED wavelengths, the pE-4000 ensures optimum compatibility with all single and multi-band filter sets.  The flexibility and extensive functionality of the pE-4000 broadens the range of illumination options in core facilities.

 

The pE-4000 allows multiple experiments with varying wavelengths on the same sample , as shown here.

(A) Representative photocurrent traces of a PhobosCA expressing CA1 cell evoked with different activation wavelengths and shutoff with 595nm light

(B) Photocurrent traces in the same cell evoked with 460nm light and shutoff with indicated wavelengths (10mW/mm2)

Wietek et al (2017) Anion-conducting channelrhodopsins with tuned spectra and modified kinetics engineered for optogenetic manipulation of behaviour,  Scientific Reports volume 7, Article number 14957(2017) doi: 10.1038/s41598-017-14330-y

 

SUSTAINABILITY

  • Lowest Power Consumption – other LED technology uses 120-350 Watts
  • >25000 hours operation
  • Highly stable, repeatable LED technology
  • Market leading energy efficiency

 

CELL VIABILITY

  • Optimal illumination through control features to extend fluorescence of cells
  • Reduced photobleaching and phototoxicity
  • Microsecond switching
  • Variable pulse duration on/off

“When you can only control intensity of ‘white’ light (rather than individual channels), the level of photobleaching can be high.  With the pE-4000, we can control the excitation of the individual channels.  It is possible to optimise the excitation intensity according to the labelling, greatly reducing photobleaching and phototoxicity in a live experiment.”    Dr Yan Gu, University of Sussex

“Suddenly, we were able to offer users uninterrupted extended live cell experiments of 100+ hours, without worrying about brightness fluctuations, lamps burning, room heating, etc. Also, users have reported markedly reduced bleaching and phototoxicity in their samples, both from the prokaryotic and the eukaryotic research fields.”     Dr Jens Eriksson, Oslo University Hospital

 

CONTROLLABILITY

  • Advance integration into major microscope software platforms
  • Save wavelength combinations and return to previous set-up
  • USB interface
  • High speed TTL Triggering
  • Analogue control – dynamic intensity sinusoidal control option
  • White light control
  • Expansion Box
  • Individual channel intensity control
  • Pre-determined intensity saving option

 

VISIBILITY

  • High signal to noise ratio which gives cleaner images and data

“Striking, bright fluorescence images with a strong signal to noise ratio even when using a low magnification objective” 

Graham Wright, Institute of Medical Biology, A*STAR Singapore

Time series of a confluent sheet of keratinocytes migrating during a live-cell imaging outgrowth assay, acquired on an Olympus IX-83 microscope equipped with a CoolLED pE-4000 lightsource (Fig. 4). Scale bar = 150 μm

 

ADAPTABILITY

  • Fits to all major research and clinical microscopes
  • Delivers light through a liquid light guide or fiber
  • Offers inline removable excitation filter holders
  • Uses the Universal Collimator

 

RELIABILITY

  • Assured through experience and QA assured processes
  • 3 year Warranty after registration
  • First year Warranty swap

The compact pE-4000 Light Source houses all the LEDs, their combining optics, thermal management and control electronics.  A dual mode control pod gives manual control in either White or Advanced modes.  Light is delivered to the microscope by either a single liquid light guide (LLG) or fiber.  LLGs can be used in conjunction with CoolLED’s pE-Universal Collimator which can accept a microscope adaptor from CoolLED’s extensive range.

 

 

 

CoolLED

PE-300ultra

 

CoolLED pE-300ultra

 

NOW DOUBLE THE INTENSITY AT THE SAMPLE PLANE

CoolLED’s pE-300ultra is a fluorescence microscopy light source which offers intense, broad-spectrum LED illumination for imaging most common fluorescent stains.  Users have access to both microsecond switching via multiple TTL inputs and the ability to mount inline excitation filters.  This, when paired with today’s high performance multi band filter sets, facilitates imaging traditionally done via a white light source and a filter wheel, with all the benefits of LED.

 

The pE-300ultra is the most controllable member of the pE-300 Series.  In addition to the many features of the pE-300lite and the pE-300white, the system offers precise control over wavelength intensity and shuttering.  Until now these benefits have only been accessible to users of high end, highly flexible illuminators such as the CoolLED pE-4000.

Throughout 2017 we will be releasing exciting new products and product updates.  The first member of the CoolLED product range to receive the star treatment is the pE-300 Series.

As part of the award winning pE-300 Series, the NEW Enhanced pE-300ultra  now delivers DOUBLE the intensity at the microscope sample plane.  It allows adjustment of output in 1% steps, giving precise control.  The broad spectrum covers everyday fluorophores: DAPI, CFP, Aqua, FITC, TRITC, TxRed, Cy5 and many more.

It is now possible to view and image your samples brighter than ever.

Convaleria taken with Photometrics Prime camera with 10ms exposure.

 

LED illumination means no mercury to dispose of and lower energy costs due to low power consumption and the precise control offered. With the new enhanced pE-300ultra, all 3 channels at full power use just 46 Watts. That is almost a quadruple efficiency increase!

This compares to other LED technology that uses 120 to 350 Watts. This leap forward in technology makes LEDs more attractive when compared to old Mercury or Metal Halide technology.  Where “green” funding is available, the reduction in institutional energy usage improves the return on investment.

CoolLED’s pE-300 Series  was the 2017 winner of the “Go Beyond Award” in the “Products” category for “Excellence in sustainability in laboratory and other high technology facilities”  The International Institute for Sustainable Laboratories (I2SL) runs a unique awards program honouring organisations, individuals, products,and projects that are advancing sustainable, high-performance facilities.

The pE-300ultra  offers triggering from multiple TTL inputs which, coupled with the ability to mount inline excitation filters, provides microsecond switching of pre-filtered excitation light.  This, when paired with today’s high performance multi-band filter sets, facilitates imaging traditionally done using a white light source and a filter wheel, with all the benefits of LED, and most excitingly at speeds not previously so affordable.

The system comprises a pE-300ultra Light Source, Control Pod, set of three Excitation Filter Holders and Power Supply.  It can be specified with a microscope adaptor for direct fit configuration or with a 3mm diameter liquid light guide if there is a need to keep the source of illumination remote from the microscope.  An optional pE-Universal Collimator and microscope adaptor can be selected for use with a liquid light guide.

A benefit of the pE-300ultra is that  stains can be viewed either individually or in combination, without filter cube changes.  This makes it ideal for use with multi-band filter sets as the screening process can be simplified when fewer filter cubes are used.  Independent control of the three LED channels means that the user can control the level of excitation of each fluorescent stain independently on a multi-stained sample, potentially removing the need for single band filter sets altogether. For further information on improved multi-stain testing, go to the Downloads tab.

An important additional feature of the pE-300ultra is that it includes CoolLED’s “Sequence Runner” multiple channel excitation mode.  Users can define the order of their fluorophore capture using their pE-300ultra Control Pod, then the pE-300ultra light source can accept a single TTL output from the experiment set-up’s camera to initiate the step-through of a sequence of excitation channels.  This feature is independent of the individual channel TTL inputs on the light source.  This offers users the facility to run through a sequence of excitation channels using a camera which has only a single TTL-out.

With an expected lifetime in excess of 25,000 on hours and a comprehensive range of microscope adaptors, the pE-300ultra can be fitted to most current and older microscopes and operate for many years without aligning or replacing bulbs. The result is a safe, convenient illumination system without any additional operating costs.

 

 

There are two pE-300ultra configuration options:

Direct-fit for connecting to a microscopes – by selecting from a range of microscope adaptors  which covers all current and most older models.  A simple once only adjustment will allow optimisation to the optical path of the microscope.

Liquid Light Guidewith a fixed 3mm diameter, liquid light guide.  An optional pE-Universal Collimator can be specified in conjunction with a microscope adaptor if required.

 

The pE-300ultra offers:

  • Clean bright illumination across the spectrum – excites common fluorescent stains
  • Specify for  existing single and multi-band filter sets – no need to buy new filters
  • Instant on/off – No shutters required, no warm up or cool down
  • Simple to fit, simple to use – no alignment, a once only adjustment
  • Stable & repeatable – reliable and consistent results
  • Wide range of microscope adaptors – fits most microscopes
  • Precise intensity control in 1% steps (0-100%) – no ND filters required
  • Excellent uniformity over field of view – fixed and stable, no alignment necessary
  • Long lifetime – expected to exceed 25,000 hours of operating time
  • Removable inline excitation filter holders – no moving parts
  • Individual channel triggering via TTL in microseconds
  • Sequence Runner – sequenced excitation from a single TTL-out

 

 

 

CHROMA

JNO-U(L)

JNOPTIC Filter  JNO-U(L)

– Filter set for UV/DAPI Longpass
– Chroma Filter Model No. : 19000

JNO-U(L) Spectrum

JNO-U(L) Spectrum Chart
JNO-U(L) Spectrum Chart
FiltersType
AT375/28xEX
AT415DCBS
AT435lpEM

주요 형광 색소(Fluorochromes)와 스펙트럼 비교

* DAPI VS JNO-U(L)

DAPI VS JNO-U(L)
DAPI VS JNO-U(L)

JNO-U(L)필터를 이용한 Sample Image 촬영

Fluorescence image taken using JNO-U(L)
DAPI Sample : bovine pulmonary artery endothelial cell, BPAEC Lens : UPLNAPO40X, C-mount adapter : 1X Camera : AcquCAM 23GR2, Filter Set : JNO-U(L)
Fluorescence image taken using JNO-U(L)
DAPI Sample : bovine pulmonary artery endothelial cell, BPAEC Lens : UPLNAPO40X, C-mount adapter : 1X Camera : AcquCAM 3G, Filter Set : JNO-U(L)
Fluorescence image taken using JNO-U(L)
DAPI Sample : bovine pulmonary artery endothelial cell, BPAEC Lens : UPLNAPO40X, C-mount adapter : 1X Camera : AcquCAM 5G, Filter Set : JNO-U(L)

JNO-U(L)에 적합한 형광색소

  • Calcofluor White
  • DAPI

JNO-U(L) Spec

  • Typical Application(s) : Widefield Microscopy
  • Coating : Sputter/Hard Coated
  • Round excitation and emission filters mounted in anodized aluminum rings 2.3mm thick, up to 25mm in diameter (for standard sizes)
  • Rectangular dichroics up to 26x38mm, 1mm thick, to fit standard microscope manufacturer filter cubes (for standard sizes)

*** For filters larger than 25mm and dichroics larger than 26x38mm, please contact us for pricing.

CoolLED

pE-340fura

The pE-340fura offers:

CoolLED pE-340fura 

Utilising the successful pE-300 Series platform, the pE-340fura is a bespoke LED Illuminator for Fura-2 ratiometric calcium imaging, which also supports everyday fluorescence microscopy in a compact and affordable package.

The 340nm and 380nm LED illumination system provides the optimum excitation wavelengths for Fura-2-based calcium imaging allowing high-precision, stable, high-throughput imaging with video-rate time resolution.

340nm Excitation 380nm Excitation

The images above show a field of cardiac myocytes (heart cells).  The cells were loaded with Fura-2 using standard conditions (i.e. incubation with 2 micromolar Fura-2 acetoxymethyl ester for 30 minutes, followed by an additional 30 minutes for de-esterification.

Images were obtained by Martin Bootman and Katja Rietdorf, School of Life, Health and Chemical Sciences, The Open University, UK.

Until recently, the response time of illumination systems for Fura-2 imaging have been limited to milliseconds due to mechanical switching of the wavelengths in arc lamp and monochromator systems.  However, the new pE-340fura can be controlled via convenient BNC TTL connections for precise illumination control in as little as 20 microseconds.

Spontaneous Ca2+ events are induced in Mg2+-free HBS. (A) Representative trace from a single hippocampal neuron of Mg2+-free induced Ca2+ events imaged at 0.5 Hz and (B) representative trace from two hippocampal neurons of Mg2+-free induced Ca2+ events imaged at 24.39 Hz.

TINNING, P. W., FRANSSEN, A. J. P.M., HRIDI, S. U., BUSHELL, T. J. and MCCONNELL, G. (2017), A 340/380 nm light-emitting diode illuminator for Fura-2 AM ratiometric Ca2+ imaging of live cells with better than 5 nM precision. Journal of Microscopy. doi:10.1111/jmi.12616

 

Using the new pE-340fura LED Illumination System, less Fura-2 dye can be loaded into the cells whilst still maintaining the same measured calcium concentration and good signal-to-noise ratio.  The reduction in required dye not only improves cell-viability due to reduced dye toxicity, but also results in a cost reduction per experiment.

Comparison of Ca2+ increases obtained from the application of trypsin (100 nM) to tsA-201 cells loaded with different concentrations of Fura-2 AM.

TINNING, P. W., FRANSSEN, A. J. P.M., HRIDI, S. U., BUSHELL, T. J. and MCCONNELL, G. (2017), A 340/380 nm light-emitting diode illuminator for Fura-2 AM ratiometric Ca2+ imaging of live cells with better than 5 nM precision. Journal of Microscopy. doi:10.1111/jmi.12616

 

Work by Sandrine Prost et al., from the University of Edinburgh, has shown that with independent wavelength controllable LED sources, signal-to-noise is dramatically improved over bulb systems and even over some available white wide spectrum LED sources.

High levels of autofluorescence and fast photobleaching of specific fluorescence when illuminating Qdots with Metal Halide.

Prost S et al (2016) Choice of Illumination System & Fluorophore for Multiplex Immunofluorescence on FFPE Tissue Sections. PLoS ONE 11(9): e0162419. doi:10.1371/journal.pone.0162419

 

There are two pE-340fura configuration options:

Direct-fit for connecting to a microscopes – by selecting from a range of microscope adaptors  which covers all current and most older models.  A simple once only adjustment will allow optimisation to the optical path of the microscope.

Liquid Light Guide with a fixed 3mm diameter, liquid light guide.  An optional pE-340fura Universal Collimator can be specified in conjunction with a microscope adaptor if required, containing optics optimised to transmit the 340nm.

CoolLED

pE-300lite

The pE-300lite offers:

CoolLED pE-300lite

Fluorescence Light Source CoolLED-pE-300lite
Simple White Light
Affordable through lab consumables budget

  • 경제적 효율성이 높은 광원 장치 ( 사용 비용이 매우 낮음 )
  • 대기 시간 없이 On / Off를 즉각적으로 할수 있습니다.
  • 광량 조절은 1 % 단위로 1 ~ 100 % 까지 설정이 가능하다.
현미경 부착시 사용되는 아답터의 종류

CoolLED Adaptors

CoolLED Adaptors for Direct-fit to a microscope

  • 다양한 현미경 제조사의 모델에 적합한 아답터를 선택 할 수 있음.
  • 광학 얼라인먼트 조정을 필요로 하지 않습니다.
  • OLYMPUS, NIKON, ZEISS, LEICA 대응가능
Liquid Light Guide type

Universal Collimator-Adaptors
Universal Collimator-Adaptors for CoolLED-pE-300 Series

  • 라이트 가이드를 이용하여 광원을 전달이 가능합니다.  다만 , 이러한 경우에 광량 손실이 발생하므로 이를 고려하여 제품을 구성 하여야 합니다.

CoolLED pE-300white

CoolLED pE-300 시리즈 스펙트럼 특성표

CoolLED pE-300white Spectrum

  • 구형 모델에 비하여 2배의 강해진 출력으로 샘플을 자극
  • DAPI, CFP, Aqua, FITC, TRITC, TxRed, Cy5 등의 다양한  형광염색에서 사용됩니다.
수명이 매우 길고 출력이 항상 일정하여  안정적인 광원

예상 수명이 25,000 시간을 초과하는  장시간 수명을 가지고 있기 때문에  소모품 교체 없이  오랜기간 사용이 가능하고, 추가적인 운영 비용없이 안전하고 편리한 조명 시스템입니다.

    • No bulb replacement or ongoing consumables
Evident, Microscope, Olympus

CKX53

CKX53 –
Compact type Inverted Microscope

소형 도립 현미경

배양 세포 관찰 

향상된 이미지 품질과 인체공학 설계로, Olympus CKX53은 라이브 셀 관찰, 세포 샘플링 및 처리, 이미지 캡처, 그리고 형광 관찰을 포함한 다양한 세포 배양 샘플에 뛰어난 성능과 효율적인 관찰 흐름을 제공합니다.  

라이브 셀 관찰

통합 위상차( iPC : Integrated Phase Contrast ) 현미경
통합 위상차( iPC : Integrated Phase Contrast ) 현미경

CKX53 iPC 시스템을 이용하여 대물렌즈 배율( 4x, 10x, 20x , 40x ) 변경시, 콘덴서 측의 위상차 링슬릿의 연동 변경이 필요 없게 되어 효율적인 관찰 작업이 가능하고, 또한 위상차 설정이 틀어짐에 대한 수시 조정이 필요없어 언제나 선명한 샘플 관찰이 가능합니다.

2X 배율, FN 22의 대물렌즈로 선명하고 넓은 시야
2X 배율, FN 22의 대물렌즈로 선명하고 넓은 시야

PLN2X 대물렌즈를 위한 링 슬릿, CKX3-SLPAS는 직경 11 ㎜ , 시야수 22 ㎜ 를 갖습니다.

2X 대물렌즈는 다른 대물렌즈 보다 확연히 높은 contrast를 제공하여, 투명한 샘플도 명확하게 식별할 수 있습니다. 예를 들어, 96-웰 마이크로 플레이트 관찰시, 넓은 시야로 인하여 스테이지를 움직이지 않고 웰의 모든 세포를 관찰 할 수 있습니다.

IVC (Inversion Contrast) 기술을 사용한 3D 셀 관찰

새로 개발된 IVC 기술로, 위상차보다 시야 심도는 좁아지며, 개체의 모양이나 투명도와 관계없이 삼차원 이미지를 선명하게 합니다. 또한, IVC 관찰은 후광 효과나, 방향성 있는 그림자를 배제하여, 개체의 선명한 관찰을 가능하게 합니다.
* 10X 대물렌즈 (PLCN10X, CACHN10XIPC)는 새로운 IVC 관찰에 사용할 수 있습니다.

Glass Heater for microscope

TPi-CKX53X ( Thermo Glass Plate )

Microscope: Olympus CKX53 series

Applicable stage: XY mechanical stage CKX3-MVR

  • Setting range: ambient ~ 60℃
  • Plate dimension: W190 x D138
  • Heating area: W174 × D127
  • Glass thickness: 0.5 ㎜

형광 관찰 (Fluorescence Microscopy)

다양한 형광 시약과 선명한 시야

100 W 수은 램프 (U-LH100HG), 130 W 고압 수은 램프 (U-HGLGPS), 그리고 타사(3rd Party) LEDs*와 같은 여러 통합 광원을 이용하여 형광 이미지를 선명하게 관찰할 수 있습니다. 일반 연구용 형광현미경 IX3 및 BX3 에서 사용하는 미러 유닛을 동일하게 사용 할 수 있습니다.

3개의 형광미러 유닛을 장착할 수 있으나, Bright Field 관찰과 위상차 관찰에 영향을 줄 수 있으니 유닛 선택시 고려할 필요가 있습니다.

AcquCAM 23S2 Fluorescence camera DAPI, FITC, TRITC
Image taken by AcquCAM 23GR2 with LUCPlanFLN40x Ph2, 1x Adapter, CKX53

밝은 조건에서 높은 Contrast

“Umbra Shield”는 특히 CKX53을 사용한 형광 관찰을 위해 설계되었습니다. 차단막은 실내 광원을 효과적으로 차단하여 형광의 대비를 향상하여 밝은 실험실 조건에서도 선명한 형광 관찰이 가능합니다. 위상차를 사용하는 경우, Umbra 차단막을 들어 올려 표본에 빛을 통과시킬 수 있습니다.

형광관찰법 교육자료 with CKX53_by JHJIN다운로드

효율적인 세포 샘플링을 위한 사용자 중심 디자인

무균 조건에서의 효율적인 세포 관찰

CKX53 현미경은 UV 차단 코팅 덕분에 UV 살균 공정 중에 그대로 둘 수 있습니다. 이 시스템은 약 7kg (15.4lb)으로 이전 모델보다 가볍고 설치 공간이 더 작기 때문에 실험실 공간을 덜 차지합니다. 또한, 한 손으로 현미경을 움직일 수 있으며 관찰 경통의 목 부분을 이용하여 쉽게 운반 할 수 있습니다.

멸균 벤치 환경에서 간편한 세포 샘플링

CKX53의 접안렌즈와 광축/포커스 노브 사이의 거리가 짧으므로 작업자의 손의 위치를 자연스럽게 잡을 수 있어서 초점 및 셀 샘플링이 용이합니다.

Product_CKX53_04
멸균 벤치 환경에서 간편한 세포 샘플링
Product_CKX53_05

다양한 세포 배양 용기를 사용할 수 있습니다.

CKX53의 공용 홀더로, 디쉬, 마이크로플레이트, 플라스크를 포함한 다양한 용기에서 배양된 세포를 확인하기 쉽습니다. 옵션 홀더가 부착되면, 최대 세 개의 35㎜ 배양 용기를 스테이지에 장착할 수 있습니다. 또한, 다양한 마이크로플레이트를 별도의 홀더 없이 다룰 수 있습니다.

다양한 세포 배양 용기를 사용할 수 있습니다.

다층 조직 플라스크(Multi-Layer Tissue Flask)를 위한 종합적인 관찰

CKX53의 폭과 탈착 가능한 콘덴서로 다층 조직 플라스크와 같은, 최대 190 ㎜ 높이의 배양 용기도 볼 수 있습니다. PLCN4X 대물렌즈의 우수한 초점 심도로 다층 조직 플라스크 내 바닥 두 개의 층의 세포를 빠르고 편하게 관찰할 수 있습니다.

다양한 용기를 사용하여 관찰 유연성 증대

홀더 암을 들어 올려서 수동으로 세포 배양 용기를 배치할 수 있습니다. 또한, 스테이지는 좌우로 최대 70 ㎜ 까지 확장할 수 있습니다.

다양한 용기를 사용하여 관찰 유연성 증대
홀더 암을 들어 올려서 수동으로 세포 배양 용기를 배치할 수 있습니다. 또한, 스테이지는 좌우로 최대 70 ㎜ 까지 확장할 수 있습니다.
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Product_CKX53_07

데모장비 할인판매
OLYMPUS _ CKX53
( Evident )