camellia sinensis callus culture extract

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extract of a culture of the callus cells of the tea, camellia sinensis, theaceae

CAS: 84650-60-2
All Ingredients Botanical Species CAS Numbers EINECS Numbers Extracts Fragrance Ingredients

Identification

Namecamellia sinensis callus culture extract
IUPACcamellia sinensis l. callus culture extract
CAS Number84650-60-2
FDA UNIISearch

Regulatory

Physical Properties

Food Chemicals Codex Listed No

Cosmetic Information

CosIngcosmetic data
Cosmetic Usesperfuming agents

No sensory data available

Safety Information

Oral/Parenteral ToxicityNot determined
Dermal ToxicityNot determined
Inhalation ToxicityNot determined

GHS Classification

['GHS Classification in accordance with 29 CFR 1910 (OSHA HCS)', 'GHS Label elements, including precautionary statements']

Safety in Use

Categoryfragrance agents
RIFM Fragrance Material Safety AssessmentSearch
IFRA Critical EffectDermal sensitization
IFRA RESTRICTION LIMITS IN THE FINISHED PRODUCT (%)Category 1: Products applied to the lips
NotesIFRA FLAVOR REQUIREMENTS:
Recommendation for camellia sinensis callus culture extract flavor usage levels up tonot for flavor use.

No supplier data available

Potential Uses

None Found

Natural Occurrence

tea callus culture

Synonyms

camellia thea callus culture extract extract of a culture of the callus cells of the tea, camellia sinensis, theaceae thea assamica callus culture extract thea sinensis callus culture extract PubMed: Differential gene expression in tea (Camellia sinensis L.) calli with different morphologies and catechin contents. PubMed: Expression of caffeine biosynthesis genes in tea (Camellia sinensis). PubMed: Activation of growth and accumulation of phenolic compounds in tea callus culture by melafen is not associated with its possible cytokinin activity. PubMed: Improvement of catechin productivity in suspension cultures of tea callus cells. PubMed: Somatic embryogenesis and plant regeneration from the immature cotyledonary tissues of cultivated tea (Camellia sinensis (L).O. Kuntze). PubMed: In vitro regeneration of Camellia sinensis (L.) O. Kuntze by somatic embryogenesis. PubMed: Studies on the polyphenol metabolism of tissue cultures derived from the tea pant (Camellia sinensis L.).