LEADER 04750nam  2201297z- 450 
001 9910557116903321
005 20231214133522.0
035   $a(CKB)5400000000040877
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/68597
035   $a(EXLCZ)995400000000040877
100   $a20202105d2020      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aGenetics of Biodegradation and Bioremediation
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 electronic resource (240 p.)
311   $a3-03936-236-4 
311   $a3-03936-237-2 
330   $aMany biodegradation pathways, both aerobic and anaerobic, have already been characterised, and the phylogenetic relationships among catabolic genes within them have been studied. However, new biodegradation activities and their coding genes are continuously being reported, including those involved in the catabolism of emerging contaminants and those generally regarded as non-biodegradable. Gene regulation is also an important issue for the efficient biodegradation of contaminants. Specific induction by the substrate and over-imposed global regulatory networks adjust the expression of the biodegradation genes to meet bacterial physiological needs. New biodegradation pathways can be assembled in a particular strain or in a bacterial consortium by recruiting biodegradation genes from different origins through horizontal gene transfer. The abundance and diversity of biodegradation genes, analysed by either genomic or metagenomic approaches, constitute valuable indicators of the biodegradation potential of a particular environmental niche. This knowledge paves the way to systems metabolic engineering approaches to valorise biowaste for the production of value-added products.
606   $aResearch & information: general$2bicssc
606   $aBiology, life sciences$2bicssc
610   $atetralin
610   $aSphingopyxis granuli strain TFA
610   $aRhodococcus sp. strain TFB
610   $aredox proteins
610   $acarbon catabolite repression
610   $aplastics
610   $abiodegradation
610   $asustainability
610   $aupcycling
610   $abiotransformations
610   $apolyethylene terephthalate
610   $aterephthalate
610   $aethylene glycol
610   $abiphenyl
610   $abph gene
610   $aintegrative conjugative element
610   $agenome sequence
610   $aLysR
610   $atranscription factor
610   $aAcinetobacter
610   $aLTTR
610   $abenzoate
610   $amuconate
610   $asynergism
610   $abiosensor
610   $anaphthalene
610   $atoluene
610   $ahydrocarbons
610   $aplant growth promotion
610   $abioremediation
610   $aPseudomonas
610   $asoil pollution
610   $aphytoremediation
610   $arhizoremediation
610   $adiesel
610   $abacteria
610   $aconsortium
610   $ametagenomics
610   $aPAHs
610   $aTPH
610   $aregulation
610   $aanaerobic
610   $aAzoarcus
610   $apromoter architecture
610   $abioethanol
610   $afurfural
610   $aALE
610   $aAraC
610   $asterols
610   $abile acids
610   $asteroid hormones
610   $a9,10-seco pathway
610   $a4,5-seco pathway
610   $a2,3-seco pathway
610   $axenobiotics
610   $aCarbaryl
610   $ahorizontal gene transfer
610   $amobile genetic elements
610   $atransposons
610   $aintegrative conjugative elements
610   $apathway assembly
610   $aevolution
610   $aSphingopyxis lindanitolerans
610   $apesticide
610   $acomplete genome sequence
610   $apangenome
610   $a?-HCH degradation
610   $alin genes
610   $atestosterone
610   $asteroid
610   $acatabolism
610   $atranscriptomic
610   $avalorisation
610   $acatabolic pathway
610   $amobile DNA
610   $aanaerobic biodegradation
610   $agene regulation
615  7$aResearch & information: general
615  7$aBiology, life sciences
700   $aSantero$b Eduardo$4edt$01328808
702   $aDíaz$b Eduardo$4edt
702   $aSantero$b Eduardo$4oth
702   $aDíaz$b Eduardo$4oth
906   $aBOOK
912   $a9910557116903321
996   $aGenetics of Biodegradation and Bioremediation$93038975
997   $aUNINA