Histone H1 From Calf Thymus, Alexa Fluor™ 488 Conjugate
Histone H1 From Calf Thymus, Alexa Fluor™ 488 Conjugate
Zitierungen und Referenzen (8)
Invitrogen™

Histone H1 From Calf Thymus, Alexa Fluor™ 488 Conjugate

Das Alexa Fluor™ 488 Histon H1-Konjugat ist mit dem leuchtenden und photostabilen Alexa Fluor™ 488 Farbstoff markiert und weist FluoreszenzWeitere Informationen
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KatalognummerMenge
H131881 mg
Katalognummer H13188
Preis (EUR)
267,14
Sonderangebot
Exklusiv online
Endet: 15-Feb-2026
373,00
Ersparnis 105,86 (28%)
Each
Zum Warenkorb hinzufügen
Menge:
1 mg
Preis (EUR)
267,14
Sonderangebot
Exklusiv online
Endet: 15-Feb-2026
373,00
Ersparnis 105,86 (28%)
Each
Zum Warenkorb hinzufügen
Das Alexa Fluor™ 488 Histon H1-Konjugat ist mit dem leuchtenden und photostabilen Alexa Fluor™ 488 Farbstoff markiert und weist Fluoreszenz mit Anregungs-/Emissionsmaxima von ∼ 495/520 nm auf. Es kann durch Fluoreszenzmikroskopie oder Durchflusszytometrie visualisiert werden.
Nur für Forschungszwecke. Nicht zur Verwendung bei diagnostischen Verfahren.
Specifications
NachweisverfahrenFluoreszent
FarbstofftypAlexa Fluor Farbstoffe
ProteinfamilieHiston H1
Menge1 mg
ReagenztypPhosphatgepufferte Salzlösung
VersandbedingungRaumtemperatur
ProduktlinieAlexa Fluor
ProdukttypLipopolysaccharid-Konjugat
Unit SizeEach
Inhalt und Lagerung
Bei -5 bis -30 °C lagern und vor Licht schützen.

Zitierungen und Referenzen (8)

Zitierungen und Referenzen
Abstract
Morphogenetic domains in the yolk syncytial layer of axiating zebrafish embryos.
Authors:D'Amico LA, Cooper MS
Journal:Dev Dyn
PubMed ID:11748830
'The yolk syncytial layer (YSL) of the teleostean yolk cell is known to play important roles in the induction of cellular mesendoderm, as well as the patterning of dorsal tissues. To determine how this extraembryonic endodermal compartment is subdivided and morphologically transformed during early development, we have examined collective movements ... More
A cell-free system for light-dependent nuclear import of phytochrome.
Authors:Pfeiffer A, Kunkel T, Hiltbrunner A, Neuhaus G, Wolf I, Speth V, Adam E, Nagy F, Schäfer E,
Journal:Plant J
PubMed ID:18980642
Translocation from the cytosol to the nucleus is an essential step in phytochrome (phy) signal transduction. In the case of phytochrome A (phyA), this step occurs with the help of FHY1 (far-red-elongated hypocotyl 1), a specific transport protein. To investigate the components involved in phyA transport, we used a cell-free ... More
Coordinated cell-shape changes control epithelial movement in zebrafish and Drosophila.
Authors:Köppen M, Fernández BG, Carvalho L, Jacinto A, Heisenberg CP,
Journal:Development
PubMed ID:16794032
Epithelial morphogenesis depends on coordinated changes in cell shape, a process that is still poorly understood. During zebrafish epiboly and Drosophila dorsal closure, cell-shape changes at the epithelial margin are of critical importance. Here evidence is provided for a conserved mechanism of local actin and myosin 2 recruitment during theses ... More
Vertical silicon nanowires as a universal platform for delivering biomolecules into living cells.
Authors:Shalek AK, Robinson JT, Karp ES, Lee JS, Ahn DR, Yoon MH, Sutton A, Jorgolli M, Gertner RS, Gujral TS, Macbeath G, Yang EG, Park H,
Journal:Proc Natl Acad Sci U S A
PubMed ID:20080678
A generalized platform for introducing a diverse range of biomolecules into living cells in high-throughput could transform how complex cellular processes are probed and analyzed. Here, we demonstrate spatially localized, efficient, and universal delivery of biomolecules into immortalized and primary mammalian cells using surface-modified vertical silicon nanowires. The method relies ... More
Control of directed cell migration in vivo by membrane-to-cortex attachment.
Authors:
Journal:PLoS Biol
PubMed ID:21151339
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