Biodegradation of endocrine disruptor dibutyl phthalate (DBP Hungary

Biodegradation of endocrine disruptor dibutyl phthalate

Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
CAS No.:84-74-2
Other Names:liquid dbp
MF:C16H2204
EINECS No.:201-557-4
Purity:≥99.5
Type:Chemical auxiliary agent, Plasticizer
Usage: Electronics Chemicals, Plastic Auxiliary Agents,
MOQ:200kgs
Package:200kgs/battle
Quality control:COA ,SDS,TDS

Four metabolic intermediates, dibutyl phthalate (DBP), monobutyl phthalate, phthalic acid and pyrocatechol, were identified. Based on the metabolic intermediates

It degrades 70 % of the initial DBP in minimal salt medium and 65 % of the initial DBP in samples contaminated with DBP. DBP biodegradation kinetics was explained by the Monod growth

Online Inquiry

Biodegradation of an endocrine-disrupting

Classification:Chemical Auxiliary Agent
CAS No.:84-74-2
Other Names:Dibutyl phthalate DBP
MF:C16H22O4
EINECS No.:201-557-4
Purity:99.5%Min
Type:PVC additives
Usage: Surfactants, Textile Auxiliary Agents,
MOQ:25kg/bag
Package:200kg/drum
Quality control:COA ,SDS,TDS

An aerobic bacterial strain M11 capable of degrading dibutyl phthalate (DBP) was isolated and identified as Camelimonas sp. This strain could not grow on dialkyl phthalates, including dimethyl, diethyl, dipropyl, dibutyl and

It degrades 70 % of the initial DBP in minimal salt medium and 65 % of the initial DBP in samples contaminated with DBP. DBP biodegradation kinetics was explained by the

Online Inquiry

Biodegradation of an endocrine-disrupting chemical di-n

Classification:Chemical Auxiliary Agent
CAS No.:84-74-2
Other Names:Bis(2-ethylhexyl) phthalate, Ethyl..
MF:C16H2204
EINECS No.:201-557-4
Purity:99.5%, 99.5%
Type:Plasticizer, Plasticizer DBP Dibutyl Phthalate
Usage: Plastic Auxiliary Agents, Rubber Auxiliary Agents
MOQ:25kg/bag
Package:200kg/drum
Application:Plasticizer

A bacterial strain capable of utilizing di-n-butyl phthalate (DBP) as its sole source of carbon and energy was isolated from river sludge.Based on its 16S rRNA gene sequence, the

of bacterial strains that are involved in biodegradation of DBP, for example: Arthrobacter sp. ZH 2 [12] ,Gordonia sp. [13] ,and Rhodococcus sp. JDC-11 [14] ,which use phthalate 3,4

Online Inquiry

Mineralization of high concentrations of the endocrine

Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
CAS No.:84-74-2
Other Names:Dibutyl phthalate DBP
MF:C16H2204
EINECS No.:201-557-4
Purity:99.5%Min
Type:PVC additives
Usage: Textile Auxiliary AgentsLeather Auxiliary Agents,
MOQ:200kgs
Package:200kgs/battle
Sample:Availabe
Application:Plasticizer

Mineralization of high concentrations of the endocrine disruptor dibutyl phthalate by Fusarium culmorum. The DBP biodegradation pathway was achieved by a DBP equilibrium

Objective: The biodegradation characteristics of di-n-butyl phthalate (DBP), an environmental endocrine disruptor, were studied by the method of dominant bacteria and immobilized

Online Inquiry

Biodegradation of endocrine disrupting dibutyl phthalate by

Classification:Chemical Auxiliary Agent
CAS No.:84-74-2
Other Names:DBP
MF:C16H22O4
EINECS No.:201-557-4
Purity:99.5%
Type:Adsorbent
Usage:Leather Auxiliary Agents,
MOQ:25kg/bag
Package:200kg/drum
Quality control:COA ,SDS,TDS
Delivery:Within 7-15 Days

EsteraseG (EstG) from Sphingobium sp. SM42 efficiently degraded the toxic chemical, dibutyl phthalate (DBP). In this study EstG was successfully displayed on the

Sequence analyses indicate that phthalate, isophthalate and terephthalate degrading bacterial isolates at the same location are not simply clones of each other and that the genes identified are linked specifically to these bacterial strains. The three phthalate isomers are widely found in the environment due to their extensive use in the manufacture of plastics. Many microorganisms

Online Inquiry