Factory Supply Best Price GABA (Gamma Aminobutyric Acid) with CAS 56-12-2

Product Details
Customization: Available
CAS No.: 56-12-2
Formula: C4h9no2
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  • Factory Supply Best Price GABA (Gamma Aminobutyric Acid) with CAS 56-12-2
  • Factory Supply Best Price GABA (Gamma Aminobutyric Acid) with CAS 56-12-2
  • Factory Supply Best Price GABA (Gamma Aminobutyric Acid) with CAS 56-12-2
  • Factory Supply Best Price GABA (Gamma Aminobutyric Acid) with CAS 56-12-2
  • Factory Supply Best Price GABA (Gamma Aminobutyric Acid) with CAS 56-12-2
  • Factory Supply Best Price GABA (Gamma Aminobutyric Acid) with CAS 56-12-2
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Basic Info.

Model NO.
98%
Packaging Material
Paper
Storage Method
Normal
Shelf Life
>12 Months
Nutrient Composition
Amino Acid
Resource
Natural
The content of active substances
>90%
Storage Type
Cool Dry Place
Keywords
GABA
Transport Package
25kg Cardboard Drum
Specification
98%
Trademark
LTCHEM
Origin
Yunnan China
HS Code
2922491990
Production Capacity
800tons/Year

Product Description

Factory Supply Best Price GABA (Gamma Aminobutyric Acid) with CAS 56-12-2
GABA has long been believed to be associated with various stress and defense systems in plants.GABA
increases with plant stimulation and is considered an effective mechanism in plants to respondto various
external changes, internal stimuli, and ion environments such as pH, temperature, and stimulation from
external predators. GABA can also regulate the internal environment of plants, such as antioxidant,ripening,
and plant preservation. In recent years, GABA has also been found to act as a signaling molecule in plants
to transmit amplified information. GABA has been successively discovered in plants such as soybean,
Arabidopsis, jasmine, and strawberry. Low concentrations of GABA contribute to plant growth and development,
while high concentrations have the opposite effect. Response to external acidification GABA rapidly increases in
cells at low pH, and this accumulation of GABA also exists in microorganisms and animals. Under acidic pH,
the intracellular H+of plants increases, inducing an increase in intracellular GABA content. The synthesis process
of GABA consumes H+, which alleviates intracellular acidification. This rapid reaction mechanism also exists in
microorganisms, which increases the expression of proton respiratory chain complexes and promotes ATP
synthesis while producing GABA. And upregulate the activity of F1F0-ATP hydrolase, promoting the ATP dependent
H+excretion process under acidic conditions. In animals, cells also excrete GABA and glutamate to alter the pH of
the extracellular environment. More importantly, GABA is a zwitterionic compound in physiological environments
and therefore plays a certain role in acid-base regulation.
Place of Origin Yunnan,China
CAS No. 56-12-2
Other Names GABA
Model Number 98%
Storage Type Cool Dry Place
Shelf Life 24 months
Keywords GABA
Low temperature can reduce the biosynthetic ability of plants, interfere with important functions, and cause permanent
damage. Animals can also cause damage or even more serious injuries at low temperatures. The expression of GABA
in organisms is upregulated at low temperatures, which is associated with low temperature tolerance. At low temperatures,
75% of metabolites increase, including amino acids, sugars, ascorbates, putrescine, and some tricarboxylic acid cycle
intermediates. The amino acid metabolism involved in energy metabolism and the transcriptional abundance of enzymes
will increase. It can produce ATP and accumulate GHB by enhancing the GABA shunt pathway. In addition, the use of
melatonin at low temperatures can lead to the accumulation of spermine, spermidine, and proline, promoting an increase
in the expression of diamine oxidase. The synthesis of GABA through the putrescine pathway leads to the accumulation of
H2O2 and a decrease in the flux of the phenylpropane pathway, achieving the effects of anti-corrosion and cold resistance.
Role in antioxidant and oxidative processes

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