TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_01359440

Standard Name
FLP16 (FLiPpase)

Aliases
PreTt21697 | 346.m00012

Description
phospholipid-translocating P-type ATPase, flippase family protein

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

Cellular Component
integral component of membrane (IEA) | GO:0016021
Molecular Function
ATPase activity (IEA) | GO:0016887
Biological Process
cation transport (IEA) | GO:0006812

Domains

( TIGR00099 ) Cof-like hydrolase
( TIGR01487 ) SPP-like hydrolase, Archaeal
( TIGR00338 ) phosphoserine phosphatase SerB
( PF00702 ) haloacid dehalogenase-like hydrolase
( TIGR01484 ) HAD-superfamily hydrolase, subfamily IIB
( TIGR01517 ) calcium-translocating P-type ATPase, PMCA-type
( TIGR01116 ) calcium-translocating P-type ATPase, SERCA-type
( TIGR01652 ) phospholipid-translocating P-type ATPase, flippase
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,

Gene Expression Profile

Tetrahymena Functional Genomics Database:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 10%

TetraMine Data

TTHERM_01359440

WebApollo

Fullscreen View

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Stentor Coeruleus SteCoe_10131 0

Tetrahymena borealis EI9_14898.1 9.997093137033517e-262 phospholipid-translocating P-t
ype ATPase, flippase (912 aa)

Oxytricha Contig10125.0.g35 9.997093137033517e-262 haloacid dehalogenase-like hyd
rolase

SGD YAL026C 4.997959784456982e-159 DRS2 Aminophospholipid translo
case (flippase) that maintains
membrane lipid asymmetry in p
ost-Golgi secretory vesicles;
contributes to clathrin-coated
vesicle formation and endocyt
osis; mutations in human homol
og ATP8B1 result in liver dise
ase

DictyBase DDB_G0269380 2.998986826334339e-156 DDB_G0269380 on chromosome: 1
position 2645714 to 2650717

WormBase WBGene00013034 2.9992103642374242e-151 locus:tat-1 status:Partially
_confirmed UniProt:Q9U280
protein_id:CAB11550.4

Source	Identifier	Score	Description
Stentor Coeruleus	SteCoe_10131	0
Tetrahymena borealis	EI9_14898.1	9.997093137033517e-262	phospholipid-translocating P-t ype ATPase, flippase (912 aa)
Oxytricha	Contig10125.0.g35	9.997093137033517e-262	haloacid dehalogenase-like hyd rolase
SGD	YAL026C	4.997959784456982e-159	DRS2 Aminophospholipid translo case (flippase) that maintains membrane lipid asymmetry in p ost-Golgi secretory vesicles; contributes to clathrin-coated vesicle formation and endocyt osis; mutations in human homol og ATP8B1 result in liver dise ase
DictyBase	DDB_G0269380	2.998986826334339e-156	DDB_G0269380 on chromosome: 1 position 2645714 to 2650717
WormBase	WBGene00013034	2.9992103642374242e-151	locus:tat-1 status:Partially _confirmed UniProt:Q9U280 protein_id:CAB11550.4

General Information

Paragraph No Gene Name Paragraph Text
19 FLP11,
FLP18,
FLP17,
FLP8,
FLP16,
FLP15,
FLP14,
FLP6,
FLP13,
FLP10,
FLP2,
FLP1,
DNF1 ,
FLP9,
FLP12,
FLP4,
FLP7,
FLP5,
FLP19 The phospholipid flippase family of genes in Tetrahymena contains 20 members, FLP1-FLP20. Preliminary studies show that many of these genes are differentially regulated in response to temperature and/or the presence of a polycyclic aromatic hydrocarbon (pyrene).

Associated Literature

No Data fetched for Associated Literature

Sequences

>TTHERM_01359440(coding)
ATGTAGATTTATTAAGTCGATAAGGTAAATAAGATCCAAAATTCTTATGAGAATGCAATA
GAAAAGCCATATCTATACTGCTTTAAAAAGAAAGTAGCAAGAAAGTAGGAACTTAGGTCA
GTTTACGCAGGAATACCTGATAATTAGGTTTGCAATAATAGGATTTAGACATCAAAATAC
AATTATTTAACCTTCATTCCTAAGAATTTACTAGTTTAGTTTAGCAAACTCGCAAATATA
TACTTTATTATTATTGGTATTTGTCAAATCATACCTTAAATTACTACTACTGATGGAAAG
CCTCTCGTTTATACTCCTTTAGGCATAATTATTTTTATAAGTATGGTAAAGGATTTTATC
GAAGATAGAAAAAGGAGAAAACAAGATGAATATGAAAATAAATCTTTAACAAACAGGTTT
AATGCTTCGTCCGGGGAATTTGAAAAAGTAGCATGGGAAGAACTTACAATTGGCGATATT
ATTAAAGTTGACTTAAATGAGCGATTTCCTGCTGACATTTTGATTCTTTCTACTACTAAT
CAATATGGAAATTGTTATGTTGAGACCAAAAATTTAGATGGAGAAACAAATTTAAAGCTG
AGACAGAGTTGTGCATCTCTCATTTTTACTGATGAAAATGCTGTTAAGAATGTAAACAAT
ATTGGGAGATTTTAATTTTAATATGAAGACCCAAATTATCGCATACACAGTTTCAATGGA
ATAATGATGGATGAACAAGAGAAAGATCCTTCAAAAAGCAAATATCCTCTTTCTTTGTAA
AATATATGCTTGAGAGGATGCACTCTTAAACGTACTCACTCGATTACAGCTGTTGTTATA
TATTCTGGACACGATTGCAAGTCTTTGAAATATGCCTAAAGAGGACACTATAAATTTGGC
ACAGTTGAAAAGATGATGAACAAAATGGTTTTTTATATTTTCTTGATCCTTATATTAATA
AGCATATTCTGTGCTGCTTATTATGTGATTTGGTATAGCTACAAAAAAGACGAACTTACT
TACCTTCATATAGGAGAACATGACATTGAGTCTTACCCTGCAGGAGATTTCTTTCTCAGA
ATTCCAATGTGGGTTTTACTCCTAAGTAACTTTGTTCCCATATCGCTTCTAGTAACTCTT
GAAATTGTGAAGTATCTCCAAGGATAGCTGTTAACAAGAGACAAAAATTTTGTAAATAAA
TTAAGTGACGAACTAGTAGAAGTAAATAGTAGTAATTTGATAGATTAGCTTGGACAAGTC
AGGTACATCCTCACTGATAAAACAGGTACGTTGACTGGAAATGTTATGAAATTCAAAGCA
TTATCTGTCAATAGCAACTCTTACGAGCATACTGCATATGACGATAATGGAATTCTTAAT
AGTACAAAGTTGCTTGAGTAATTAAAGGATTCATCAGAAAATCAACTTGAATATGAAGCT
CTTCTATGCATGAATTTATGCCATGAATTGATGATCGAGTTCGTTGATGGTAAAAAACTC
TATCTAGGAACAAGCCCTGATGAAGAATGCATTATGGAATTTTGCTTAAATACAGGAATA
TATTTAGATAGTATTGATGAACATAAAGTTATGACTATTATAGATTCTATCAATGGAAGA
ACCATACAATTTAAGCTTATTGCTATTCATGAGTATCGCTCAGAGTTAAGGAAAATGTCA
GTTCTAGTGTAGAATCTATAGACAAAGCAATATAAAATATATTAAAAAGGAGCTATGAAT
ACAATTTTCGACATTTGTTCAGAAGATTAATCTTTTAAAAAGGTGAAAGTTGAGGAGCAT
CTTAATGATTACGCAAACAACATGCTCAGAACTCTTTGTCTTTCTTATAAAAACCTAACT
GAAAAAGAAGTTTCTGATTTTTTGCAAAAGAAAAATGAAGAACTAAGTAAAGGAAACCTA
AATATCTAAGATATAAATGATTAAGTTTTTTCTTTAATTGAAAAAAATCACATTTTGATT
GGTGGAACTGGTGTGAATGATGAATTCGCTGACCAAGTAGTTTCAACACTTGCTAATCTA
AAGAAAGCAGGAATAAAAATCTGGATGATCACTGGAGACAAAAAAGAAACAGCGCTTAGC
ATTGGAATAAAATCCAACATAGTAGAAAAAGATGGTGACTTACAAGTAATTGAAGAAGGA
GTTGAAAATGGGTAAAATGATAATTTTACTATTGAGTAGCTTAAAAAATATAAAAAATAA
TTGTAAGATTAAAAAAAACTCAGCATTGGTATTTCTGGATTAACTTATCATAATATCCAC
ATTTCATAGAATGCAGAGCTTATTGAAAACTTCAATTTTGTCATGAAAAATGCTGATTCA
GTGATAGCCTTCCATTTCACTCCTATTCAGAAAAAGCAATTAGTTGATTTAGTCCATTAA
ATAAGTCCAGGATAGTGCGTTCTATCGATTGGCGATGGTGCTAATGACATCAATATGATC
TAAGCAGCTAACGTAGGAATAGGAATTCGTGGTAAAGAGGGAAGAGAAGCAGCTAAGGCT
TCTGATTTCTCTCTCGCAGAATTCAAACATTTAAATAGATTATTGCTATACACTGGCTAA
GAAGCTTACAGAAAAAATAGTTACCTAATATTCTTTAACTTTTATAAAAATTAAGCTTGG
AATTTAGTTTACTTTTGGTTTAATTTTTATGCTGGTTAGAGTGCCCAATATGTTTATGAT
TAGTGGATGACATAATTTTTTAATTTGTTCTATGTCTCTCTTCCTATTATATTATATGCT
CTTTTCGATGAAATGCATCCTTCAAACGAGTTCTTTTAACCAATCTAAACAAGAAAGAAT
GTTTTAGAGTCAAGGCCCCAAGATTACAAACACCTTACTAACAACCTTATCTTTCAACAA
AAAAACTTTTGGAGTTGGTTTTTCTACGGTTCCTTGCATTCCCTCATAATTATGTTTCTA
TCATTTTTAAGTGTTGGTGAATTCTCTGATAAAAATGGTAAATAAACAAACTTATTTTAC
TAAGGTATGCTAGCTTATACTTGTTGTGTTATTTTAGGAAACCTAAAAGTTTAGTAATTA
CATAGAACACATCACTTTGTTACTTTGTTTTTTATTTATGGTAGCATTGGTTTTTATTTT
ATGAATCTCTACATAGCAAATAAAATAACTACCTTAGATTGTTATGGAGTTATAAATGGC
TTATTCCGTTAAGCAAATACATATTTTGCAATAATGATTATGATTATGATAACTTATGGA
ATTGATTCTGCGTATGAAATATTTAATAAATCAAGAAATAATGCAGATTAGCAATAAAAC
ACCTAATTTTCTCTACAGATGCAAGTCTATCAAGGTTAGAAAGAAAACAATATAATTGTT
TATGATAAATCATCATAATAAGGTTCAGATTAAAATTGCATAGAAGAAAAAGCTAAAAAA
GACTATGATAGCTCTTCTGCAGGAGATATTAACAAAAATCTTCTAATTTATCCATTAAAA
GTTTAAATAAAAGATAATATACTACATGATAATTTAGCTGGAAGTAATTATTAATTAGAA
GAAGACTAACCCTATGATAACGAAGTATCTAACAAAAATAAGAAAAAATAAGTATTATCT
TAGGCTCCCTTATAAAACAAGTAGGCTTCTCCATCTTTGTTAATTTAAAAAGCTGATAAA
AAATGA

>TTHERM_01359440(protein)
MQIYQVDKVNKIQNSYENAIEKPYLYCFKKKVARKQELRSVYAGIPDNQVCNNRIQTSKY
NYLTFIPKNLLVQFSKLANIYFIIIGICQIIPQITTTDGKPLVYTPLGIIIFISMVKDFI
EDRKRRKQDEYENKSLTNRFNASSGEFEKVAWEELTIGDIIKVDLNERFPADILILSTTN
QYGNCYVETKNLDGETNLKLRQSCASLIFTDENAVKNVNNIGRFQFQYEDPNYRIHSFNG
IMMDEQEKDPSKSKYPLSLQNICLRGCTLKRTHSITAVVIYSGHDCKSLKYAQRGHYKFG
TVEKMMNKMVFYIFLILILISIFCAAYYVIWYSYKKDELTYLHIGEHDIESYPAGDFFLR
IPMWVLLLSNFVPISLLVTLEIVKYLQGQLLTRDKNFVNKLSDELVEVNSSNLIDQLGQV
RYILTDKTGTLTGNVMKFKALSVNSNSYEHTAYDDNGILNSTKLLEQLKDSSENQLEYEA
LLCMNLCHELMIEFVDGKKLYLGTSPDEECIMEFCLNTGIYLDSIDEHKVMTIIDSINGR
TIQFKLIAIHEYRSELRKMSVLVQNLQTKQYKIYQKGAMNTIFDICSEDQSFKKVKVEEH
LNDYANNMLRTLCLSYKNLTEKEVSDFLQKKNEELSKGNLNIQDINDQVFSLIEKNHILI
GGTGVNDEFADQVVSTLANLKKAGIKIWMITGDKKETALSIGIKSNIVEKDGDLQVIEEG
VENGQNDNFTIEQLKKYKKQLQDQKKLSIGISGLTYHNIHISQNAELIENFNFVMKNADS
VIAFHFTPIQKKQLVDLVHQISPGQCVLSIGDGANDINMIQAANVGIGIRGKEGREAAKA
SDFSLAEFKHLNRLLLYTGQEAYRKNSYLIFFNFYKNQAWNLVYFWFNFYAGQSAQYVYD
QWMTQFFNLFYVSLPIILYALFDEMHPSNEFFQPIQTRKNVLESRPQDYKHLTNNLIFQQ
KNFWSWFFYGSLHSLIIMFLSFLSVGEFSDKNGKQTNLFYQGMLAYTCCVILGNLKVQQL
HRTHHFVTLFFIYGSIGFYFMNLYIANKITTLDCYGVINGLFRQANTYFAIMIMIMITYG
IDSAYEIFNKSRNNADQQQNTQFSLQMQVYQGQKENNIIVYDKSSQQGSDQNCIEEKAKK
DYDSSSAGDINKNLLIYPLKVQIKDNILHDNLAGSNYQLEEDQPYDNEVSNKNKKKQVLS
QAPLQNKQASPSLLIQKADKK

>TTHERM_01359440(gene)
ATGTAGATTTATTAAGTCGATAAGGTAAATAAGATCCAAAATTCTTATGAGAATGCAATA
GAAAAGCCATATCTATACTGCTTTAAAAAGAAAGTAGCAAGAAAGTAGGAACTTAGGTCA
GTTTACGCAGGAATACCTGATAATTAGGTTTGCAATAATAGGATTTAGACATCAAAATAC
AATTATTTAACCTTCATTCCTAAGAATTTACTAGTTTAGTTTAGCAAACTCGCAAATATA
TACTTTATTATTATTGGTATTTGTCAAATCATACCTTAAATTACTACTACTGATGGAAAG
CCTCTCGTTTATACTCCTTTAGGCATAATTATTTTTATAAGTATGGTAAAGGATTTTATC
GAAGATAGAAAAAGGAGAAAACAAGATGAATATGAAAATAAATCTTTAACAAACAGGTTT
AATGCTTCGTCCGGGGAATTTGAAAAAGTAGCATGGGAAGAACTTACAATTGGCGATATT
ATTAAAGTTGACTTAAATGAGCGATTTCCTGCTGACATTTTGATTCTTTCTACTACTAAT
CAATATGTAAATTAGTGTATCTATTAATATAAAAATTTAAAGGAAAATACATTGATTTTT
TATATGCAAAATTATATAAAATATTTATGACTCATAAATGAGTTTTTTTTCATTTTTTAA
GGGAAATTGTTATGTTGAGACCAAAAATTTAGATGGAGAAACAAATTTAAAGCTGAGACA
GAGTTGTGCATCTCTCATTTTTACTGATGAAAATGCTGTTAAGAATGTAAACAATATTGG
GAGATTTTAATTTTAATATGAAGACCCAAATTATCGCATACACAGTTTCAATGGAATAAT
GATGGATGAACAAGAGAAAGATCCTTCAAAAAGCAAATATCCTCTTTCTTTGTAAAATAT
ATGCTTGAGAGGATGCACTCTTAAACGTACTCACTCGATTACAGCTGTTGTTATATATTC
TGGACACGATTGCAAGTCTTTGAAATATGCCTAAAGAGGACAGTAAATATCTAAATTATT
TAGAACTATTTCAAACATTTAATTTATTCAAGCTATAAATTTGGCACAGTTGAAAAGATG
ATGAACAAAATGGTTTTTTATATTTTCTTGATCCTTATATTAATAAGCATATTCTGTGCT
GCTTATTATGTGATTTGGTATAGCTACAAAAAAGACGAACTTACTTACCTTCATATAGGA
GAACATGACATTGAGTCTTACCCTGCAGGAGATTTCTTTCTCAGAATTCCAATGTGGGTT
TTACTCCTAAGTAACTTTGTTCCCATATCGCTTCTAGTAACTCTTGAAATTGTGAAGTAT
CTCCAAGGATAGCTGTTAACAAGAGACAAAAATTTTGTAAATAAATTAAGTGACGAACTA
GTAGAAGTAAATAGTAGTAATTTGATAGATTAGCTTGGACAAGTCAGGTACATCCTCACT
GATAAAACAGGTACGTTGACTGGAAATGTTATGAAATTCAAAGCATTATCTGTCAATAGC
AACTCTTACGAGCATACTGCATATGACGATAATGGAATTCTTAATAGTACAAAGTTGCTT
GAGTAATTAAAGGATTCATCAGAAAATCAAGTAATTAATTAATTAATTTTATATGAAATT
TATAACTTAAAATATTGAAATTAGCTTGAATATGAAGCTCTTCTATGCATGAATTTATGC
CATGAATTGATGATCGAGTTCGTTGATGGTAAAAAACTCTATCTAGGAACAAGCCCTGAT
GAAGAATGCATTATGGAATTTTGCTTAAATACAGGAATATATTTAGATAGTATTGATGAA
CATAAAGTTATGACTATTATAGATTCTATCAATGGAAGAACCATACAATTTAAGCTTATT
GCTATTCATGAGTATCGCTCAGAGTTAAGGAAAATGTCAGTTCTAGTGTAGAATCTATAG
ACAAAGCAATATAAAATATATTAAAAAGGAGCTATGAATACAATTTTCGACATTTGTTCA
GAAGATTAATCTTTTAAAAAGGTGAAAGTTGAGGAGCATCTTAATGATTACGCAAACAAC
ATGCTCAGAACTCTTTGTCTTTCTTATAAAAACCTAACTGAAAAAGAAGTTTCTGATTTT
TTGCAAAAGTAATTTGAAAAATATTTTATTTGATTTAAAATGAGATTTTATTTTTGAAAG
GAAAAATGAAGAACTAAGTAAAGGAAACCTAAATATCTAAGATATAAATGATTAAGTTTT
TTCTTTAATTGAAAAAAATCACATTTTGATTGGTGGAACTGGTGTGAATGATGAATTCGC
TGACCAAGTAGTTTCAACACTTGCTAATCTAAAGAAAGCAGGAATAAAAATCTGGATGAT
CACTGGAGACAAAAAAGAAACAGCGCTTAGCATTGGAATAAAATCCAACATAGTAGAAAA
AGATGGTGACTTACAAGTAATTGAAGAAGGAGTTGAAAATGGGTAAAATGATAATTTTAC
TATTGAGTAGCTTAAAAAATATAAAAAATAATTGTAAGATTAAAAAAAACTCAGCATTGG
TATTTCTGGATTAACTTATCATAATATCCACATTTCATAGAATGCAGAGCTTATTGAAAA
CTTCAATTTTGTCATGAAAAATGCTGATTCAGTGATAGCCTTCCATTTCACTCCTATTCA
GAAAAAGCAATTAGTTGATTTAGTCCATTAAATAAGTCCAGGATAGTGCGTTCTATCGAT
TGGCGATGGTGCTAATGACATCAATATGATCTAAGCAGCTAACGTAGGAATAGGAATTCG
TGGTAAAGAGGTAAAGTAATTTGCATGTAATCTTTTAACTAACTATTTTCACTTATGAAA
AAGGGAAGAGAAGCAGCTAAGGCTTCTGATTTCTCTCTCGCAGAATTCAAACATTTAAAT
AGATTATTGCTATACACTGGCTAAGAAGCTTACAGAAAAAATAGTTACCTAATATTCTTT
AACTTTTATAAAAATTAAGCTTGGAATTTAGTTTACTTTTGGTTTAATTTTTATGCTGGT
TAGAGTGCCCAATATGTTTATGATTAGTGGATGACATAATTTTTTAATTTGTTCTATGTC
TCTCTTCCTATTATATTATATGCTCTTTTCGATGAAATGCATCCTTCAAACGAGTTCTTT
TAACCAATCTAAACAAGAAAGAATGTTTTAGAGTCAAGGCCCCAAGATTACAAACACCTT
ACTAACAACCTTATCTTTCAACAAAAAAACTTTTGGAGTTGGTTTTTCTACGGTTCCTTG
CATTCCCTCATAATTATGTTTCTATCGTAAAAATTTTTATCTTTATTTATTTATTATTGA
TTTTAAATAATTTTTATTTAAACAAATAAATTAATTTTTCCATTTAATTCAATTAAAGCT
ATAAACTGCCATATTTTTTTAAAAGCCAAGTGATATAAATATTTTTATTCAAAATAATCT
ACTCTAATCTTTATTTCTTTTATGGTAGCTTAATTAAAAAAATAACATTTATGAAAAAAA
ATATAAAATTTATGAAATTTTTTGCAATTATTTAAAATAAATAAAAAATAAAATAATTTA
AAGTATATTTAAAAAATGTTAATAATTAATTAGATTTTTAAGTGTTGGTGAATTCTCTGA
TAAAAATGGTAAATAAACAAACTTATTTTACTAAGGTATGCTAGCTTATACTTGTTGTGT
TATTTTAGGAAACCTAAAAGTTTAGTAATTACATAGAACACATCACTTTGTTACTTTGTT
TTTTATTTATGGTAGCATTGGTTTTTATTTTATGAATCTCTACATAGCAAATAAAATAAC
TACCTTAGATTGTTATGGAGTTATAAATGGCTTATTCCGTTAAGCAAATACATATTTTGC
AATAATGATTATGATTATGATAACTTATGGAATTGATTCTGCGTATGAAATATTTAATAA
ATCAAGAAATAATGCAGATTAGCAATAAAACACCTAATTTTCTCTACAGATGCAAGTCTA
TCAAGGTTAGAAAGAAAACAATATAATTGTTTATGATAAATCATCATAATAAGGTTCAGA
TTAAAATTGCATAGAAGAAAAAGCTAAAAAAGACTATGATAGCTCTTCTGCAGGAGATAT
TAACAAAAATCTTCTAATTTATCCATTAAAAGTTTAAATAAAAGATAATATACTACATGA
TAATTTAGCTGGAAGTAATTATTAATTAGAAGAAGACTAACCCTATGATAACGAAGTATC
TAACAAAAATAAGAAAAAATAAGTATTATCTTAGGCTCCCTTATAAAACAAGTAGGCTTC
TCCATCTTTGTTAATTTAAAAAGCTGATAAAAAATGA

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Identifiers and Description

Gene Model Identifier

Standard Name

Aliases

Description

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

Cellular Component

Molecular Function

Biological Process

Domains

Gene Expression Profile

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

TetraMine Data

WebApollo

Tetrahymena Stock Center

Homologs (v.2006 protein sequences)

General Information

Associated Literature

Sequences

Wiki Links

External Links

Paragraph No	Gene Name	Paragraph Text
19	FLP11, FLP18, FLP17, FLP8, FLP16, FLP15, FLP14, FLP6, FLP13, FLP10, FLP2, FLP1, DNF1 , FLP9, FLP12, FLP4, FLP7, FLP5, FLP19	The phospholipid flippase family of genes in Tetrahymena contains 20 members, FLP1-FLP20. Preliminary studies show that many of these genes are differentially regulated in response to temperature and/or the presence of a polycyclic aromatic hydrocarbon (pyrene).