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Sodium hydroxide solution

Name: Sodium hydroxide solution
Brand: SAJ

0.2 M

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About This Item

Linear Formula:

NaOH

CAS Number:

1310-73-2

Molecular Weight:

40.00

UNSPSC Code:

12352106

PubChem Substance ID:

329753134

MDL number:

MFCD00003548

Concentration:

0.2 M, 1/5 N

Form:

liquid

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Properties

vapor pressure

3 mmHg ( 37 °C)

form

liquid

availability

available only in Japan

concentration

0.2 M, 1/5 N

density

1 g/cm³ at 20 °C

SMILES string

[OH-].[Na+]

InChI

1S/Na.H2O/h;1H2/q+1;/p-1

InChI key

HEMHJVSKTPXQMS-UHFFFAOYSA-M

Description

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pictograms

GHS05

signalword

Warning

hcodes

H290,H315,H319

pcodes

P234 - P264 - P280 - P302 + P352 - P305 + P351 + P338 - P332 + P313

Hazard Classifications

Eye Irrit. 2 - Met. Corr. 1 - Skin Irrit. 2

flash_point_f

Not applicable

flash_point_c

Not applicable

Storage Class

12 - Non Combustible Liquids

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Triggered Ca2+ influx is required for extended synaptotagmin 1-induced ER-plasma membrane tethering.

Olof Idevall-Hagren et al.

The EMBO journal, 34(17), 2291-2305 (2015-07-24)

The extended synaptotagmins (E-Syts) are ER proteins that act as Ca(2+)-regulated tethers between the ER and the plasma membrane (PM) and have a putative role in lipid transport between the two membranes. Ca(2+) regulation of their tethering function, as well

A genetic approach for analyzing the co-operative function of the tRNA mimicry complex, eRF1/eRF3, in translation termination on the ribosome.

Miki Wada et al.

Nucleic acids research, 42(12), 7851-7866 (2014-06-11)

During termination of translation in eukaryotes, a GTP-binding protein, eRF3, functions within a complex with the tRNA-mimicking protein, eRF1, to decode stop codons. It remains unclear how the tRNA-mimicking protein co-operates with the GTPase and with the functional sites on

Identification of Inhibitory Premotor Interneurons Activated at a Late Phase in a Motor Cycle during Drosophila Larval Locomotion.

Yuki Itakura et al.

PloS one, 10(9), e0136660-e0136660 (2015-09-04)

Rhythmic motor patterns underlying many types of locomotion are thought to be produced by central pattern generators (CPGs). Our knowledge of how CPG networks generate motor patterns in complex nervous systems remains incomplete, despite decades of work in a variety

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