M8179
Manganese sulfate monohydrate
meets USP testing specifications
Synonym(s):
Manganese(II) sulfate monohydrate
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About This Item
Linear Formula:
MnSO4 · H2O
CAS Number:
Molecular Weight:
169.02
EC Number:
MDL number:
UNSPSC Code:
12352302
PubChem Substance ID:
NACRES:
NA.21
Recommended Products
Agency
USP/NF
meets USP testing specifications
Quality Level
form
powder
application(s)
pharmaceutical (small molecule)
SMILES string
O.[Mn++].[O-]S([O-])(=O)=O
InChI
1S/Mn.H2O4S.H2O/c;1-5(2,3)4;/h;(H2,1,2,3,4);1H2/q+2;;/p-2
InChI key
ISPYRSDWRDQNSW-UHFFFAOYSA-L
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Related Categories
Application
<ul>
<li><strong>Promoting nitrogen conversion in aerobic biotransformation of swine slurry with the co-application of manganese sulfate and biochar</strong>: This study explores the synergistic effects of manganese sulfate monohydrate and biochar on nitrogen conversion processes in swine slurry management, highlighting its potential to enhance biotransformation efficiency in agricultural waste management (Wu et al., 2024).</li>
<li><strong>Multi-Omics Analysis of the Effects of Soil Amendment on Rapeseed (Brassica napus L.) Photosynthesis under Drip Irrigation with Brackish Water</strong>: This study indicates the broader agricultural applications of manganese sulfate monohydrate in enhancing crop photosynthesis and overall yield, particularly under challenging irrigation conditions (Li et al., 2024).</li>
<li><strong>The influence of steroidal implants and manganese sulfate supplementation on growth performance, trace mineral status, hepatic gene expression, hepatic enzyme activity, and circulating metabolites in feedlot steers</strong>: This research demonstrates the beneficial effects of manganese sulfate monohydrate on animal health, specifically in boosting growth performance and mineral status in livestock (Smerchek et al., 2024).</li>
</ul>
<li><strong>Promoting nitrogen conversion in aerobic biotransformation of swine slurry with the co-application of manganese sulfate and biochar</strong>: This study explores the synergistic effects of manganese sulfate monohydrate and biochar on nitrogen conversion processes in swine slurry management, highlighting its potential to enhance biotransformation efficiency in agricultural waste management (Wu et al., 2024).</li>
<li><strong>Multi-Omics Analysis of the Effects of Soil Amendment on Rapeseed (Brassica napus L.) Photosynthesis under Drip Irrigation with Brackish Water</strong>: This study indicates the broader agricultural applications of manganese sulfate monohydrate in enhancing crop photosynthesis and overall yield, particularly under challenging irrigation conditions (Li et al., 2024).</li>
<li><strong>The influence of steroidal implants and manganese sulfate supplementation on growth performance, trace mineral status, hepatic gene expression, hepatic enzyme activity, and circulating metabolites in feedlot steers</strong>: This research demonstrates the beneficial effects of manganese sulfate monohydrate on animal health, specifically in boosting growth performance and mineral status in livestock (Smerchek et al., 2024).</li>
</ul>
Signal Word
Danger
Hazard Statements
Precautionary Statements
Hazard Classifications
Aquatic Chronic 2 - Eye Dam. 1 - STOT RE 2 Inhalation
Target Organs
Brain
Storage Class Code
13 - Non Combustible Solids
WGK
WGK 2
Flash Point(F)
Not applicable
Flash Point(C)
Not applicable
Personal Protective Equipment
dust mask type N95 (US), Eyeshields, Gloves
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Swatismita Ray et al.
Transgenic research, 21(2), 351-366 (2011-07-05)
Two abiotic stress-inducible upstream regulatory sequences (URSs) from rice have been identified and functionally characterized in rice. NBS-Str1 and BLEC-Str8 genes have been identified, by analysing the transcriptome data of cold, salt and desiccation stress-treated 7-day-old rice (Oryza sativa L.
Tomás R Guilarte et al.
Neurotoxicology, 28(6), 1147-1152 (2007-07-31)
Humans exposed to excess levels of manganese (Mn(2+)) express psychiatric problems and deficits in attention and learning and memory. However, there is a paucity of knowledge on molecular mechanisms by which Mn(2+) produces such effects. We now report that Mn(2+)
David C Dorman et al.
Toxicological sciences : an official journal of the Society of Toxicology, 106(1), 46-54 (2008-08-08)
Neurotoxicity is linked with high-dose manganese inhalation. There are few biomarkers that correlate with manganese exposure. Blood manganese concentrations depend upon the magnitude and duration of the manganese exposure and inconsistently reflect manganese exposure concentrations. The objective of this study
Melanie F Struve et al.
American journal of industrial medicine, 50(10), 772-778 (2007-07-11)
Manganese neurotoxicity in humans is recognized as a form of parkinsonism with lesions occurring predominantly within the globus pallidus, subthalamic nucleus, putamen, and caudate nucleus. This study evaluated dopamine, 3,4-dihydroxyphenylacetic acid, homovanillic acid, serotonin, norepinephrine, 5-hydroxyindoleacetic acid, gamma-aminobutyric acid (GABA)
Edson R Silva et al.
Experimental parasitology, 125(2), 152-155 (2010-01-30)
In Leishmania, arginase is responsible for the production of ornithine, a precursor of polyamines required for proliferation of the parasite. In this work, the activation kinetics of immobilized arginase enzyme from L. (L.) amazonensis were studied by varying the concentration
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