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Diss Factsheets

Administrative data

Key value for chemical safety assessment

Genetic toxicity in vitro

Description of key information

Based on the prediction done using the OECD QSAR toolbox version 3.3 with log kow as the primary descriptor and considering the five closest read across substances, gene mutation was predicted for 1-bromo-3-methoxybenzene using OECD QSAR toolbox version 3.3 (2017). The study assumed the use of Salmonella typhimurium strain TA100 with S9 metabolic activation system. 1-bromo-3-methoxybenzene failed to induce mutation in Salmonella typhimurium strain TA100 in the presence of S9 metabolic activation system.

Based on the results predicted, it can be concluded that the 1-bromo-3-methoxybenzene is considered to not toxic as per the criteria mentioned in CLP regulation

Link to relevant study records
Reference
Endpoint:
in vitro gene mutation study in bacteria
Remarks:
Type of genotoxicity: gene mutation
Type of information:
(Q)SAR
Adequacy of study:
weight of evidence
Reliability:
2 (reliable with restrictions)
Rationale for reliability incl. deficiencies:
results derived from a valid (Q)SAR model and falling into its applicability domain, with limited documentation / justification
Justification for type of information:
Data is predicted using OECD QSAR toolbox version 3.3 and the supporting QMRF report has been attached
Qualifier:
according to guideline
Guideline:
other: Refer below priciple
Principles of method if other than guideline:
Prediction is done using OECD QSAR Toolbox version 3.3
GLP compliance:
not specified
Type of assay:
bacterial reverse mutation assay
Specific details on test material used for the study:
- Name of the test material: 1-bromo-3-methoxybenzene
- Molecular formula: C7H7BrO
- Molecular weight: 187.035 g/mol
- Substance type: Organic
- Smiles: c1(cc(ccc1)Br)OC
Target gene:
Histidine
Species / strain / cell type:
S. typhimurium TA 100
Details on mammalian cell type (if applicable):
Not applicable
Additional strain / cell type characteristics:
not specified
Cytokinesis block (if used):
No data
Metabolic activation:
with
Metabolic activation system:
S9 metaboilc activation system
Test concentrations with justification for top dose:
No data
Vehicle / solvent:
No data
Untreated negative controls:
not specified
Negative solvent / vehicle controls:
not specified
True negative controls:
not specified
Positive controls:
not specified
Positive control substance:
not specified
Details on test system and experimental conditions:
No data
Rationale for test conditions:
No data
Evaluation criteria:
The plates were observed for a dose depnedent increase in the number of revertants/plate.
Statistics:
No data
Species / strain:
S. typhimurium TA 100
Metabolic activation:
with
Genotoxicity:
negative
Cytotoxicity / choice of top concentrations:
not specified
Vehicle controls validity:
not specified
Untreated negative controls validity:
not specified
Positive controls validity:
not specified
Additional information on results:
No data

The prediction was based on dataset comprised from the following descriptors: "Gene mutation"
Estimation method: Takes highest mode value from the 6 nearest neighbours
Domain  logical expression:Result: In Domain

((((((((((("a" or "b" or "c" or "d" or "e" )  and ("f" and ( not "g") )  )  and (("h" or "i" or "j" or "k" or "l" )  and ("m" and ( not "n") )  )  and (("o" or "p" or "q" or "r" or "s" )  and ("t" and ( not "u") )  )  and (("v" or "w" or "x" or "y" or "z" )  and ("aa" and ( not "ab") )  )  and (("ac" or "ad" or "ae" or "af" or "ag" )  and ("ah" and ( not "ai") )  )  )  and ("aj" and ( not "ak") )  )  and "al" )  and ("am" and ( not "an") )  )  and ("ao" and ( not "ap") )  )  and ("aq" and ( not "ar") )  )  and ("as" and ( not "at") )  )  and ("au" and ( not "av") )  )  and ("aw" and "ax" )  )

Domain logical expression index: "a"

Referential boundary: The target chemical should be classified as Neutral Organics by US-EPA New Chemical Categories

Domain logical expression index: "b"

Referential boundary: The target chemical should be classified as Aryl AND Aryl halide AND Ether by Organic Functional groups

Domain logical expression index: "c"

Referential boundary: The target chemical should be classified as Aryl halide AND Ether AND Overlapping groups by Organic Functional groups (nested)

Domain logical expression index: "d"

Referential boundary: The target chemical should be classified as Aliphatic Carbon [CH] AND Aliphatic Carbon [-CH2-] AND Aliphatic Carbon [-CH3] AND Aromatic Carbon [C] AND Bromine, aromatic attach [-Br] AND Bromine, olefinic attach [-Br] AND Olefinic carbon [=CH- or =C<] AND Oxygen, one aromatic attach [-O-] by Organic functional groups (US EPA)

Domain logical expression index: "e"

Referential boundary: The target chemical should be classified as Alkylarylether AND Aromatic compound AND Aryl bromide AND Aryl halide AND Ether AND Halogen derivative by Organic functional groups, Norbert Haider (checkmol)

Domain logical expression index: "f"

Referential boundary: The target chemical should be classified as No alert found by DNA binding by OASIS v.1.3

Domain logical expression index: "g"

Referential boundary: The target chemical should be classified as AN2 OR AN2 >>  Michael-type addition, quinoid structures OR AN2 >>  Michael-type addition, quinoid structures >> Flavonoids OR AN2 >>  Michael-type addition, quinoid structures >> Quinoneimines OR AN2 >>  Michael-type addition, quinoid structures >> Quinones OR AN2 >> Carbamoylation after isocyanate formation OR AN2 >> Carbamoylation after isocyanate formation >> Hydroxamic Acids OR AN2 >> Carbamoylation after isocyanate formation >> N-Hydroxylamines OR AN2 >> Michael-type addition on alpha, beta-unsaturated carbonyl compounds OR AN2 >> Michael-type addition on alpha, beta-unsaturated carbonyl compounds >> Four- and Five-Membered Lactones OR AN2 >> Schiff base formation OR AN2 >> Schiff base formation >> Dicarbonyl compounds OR AN2 >> Schiff base formation >> Halofuranones OR AN2 >> Schiff base formation >> Polarized Haloalkene Derivatives OR AN2 >> Schiff base formation by aldehyde formed after metabolic activation OR AN2 >> Schiff base formation by aldehyde formed after metabolic activation >> Geminal Polyhaloalkane Derivatives OR AN2 >> Schiff base formation by aldehyde formed after metabolic activation >> N-methylol derivatives OR AN2 >> Shiff base formation after aldehyde release OR AN2 >> Shiff base formation after aldehyde release >> Specific Acetate Esters OR AN2 >> Shiff base formation for aldehydes OR AN2 >> Shiff base formation for aldehydes >> Geminal Polyhaloalkane Derivatives OR AN2 >> Thioacylation via nucleophilic addition after cysteine-mediated thioketene formation OR AN2 >> Thioacylation via nucleophilic addition after cysteine-mediated thioketene formation >> Haloalkenes with Electron-Withdrawing Groups OR AN2 >> Thioacylation via nucleophilic addition after cysteine-mediated thioketene formation >> Polarized Haloalkene Derivatives OR Non-covalent interaction OR Non-covalent interaction >> DNA intercalation OR Non-covalent interaction >> DNA intercalation >> Acridone, Thioxanthone, Xanthone and Phenazine Derivatives OR Non-covalent interaction >> DNA intercalation >> Amino Anthraquinones OR Non-covalent interaction >> DNA intercalation >> Aminoacridine DNA Intercalators OR Non-covalent interaction >> DNA intercalation >> Coumarins OR Non-covalent interaction >> DNA intercalation >> DNA Intercalators with Carboxamide Side Chain OR Non-covalent interaction >> DNA intercalation >> Fused-Ring Nitroaromatics OR Non-covalent interaction >> DNA intercalation >> Fused-Ring Primary Aromatic Amines OR Non-covalent interaction >> DNA intercalation >> Quinones OR Non-specific OR Non-specific >> Incorporation into DNA/RNA, due to structural analogy with  nucleoside bases    OR Non-specific >> Incorporation into DNA/RNA, due to structural analogy with  nucleoside bases    >> Specific Imine and Thione Derivatives OR Radical OR Radical >> Generation of reactive oxygen species OR Radical >> Generation of reactive oxygen species >> Thiols OR Radical >> Generation of ROS by glutathione depletion (indirect) OR Radical >> Generation of ROS by glutathione depletion (indirect) >> Haloalkanes Containing Heteroatom OR Radical >> Radical attack after one-electron reduction of diazonium cation OR Radical >> Radical attack after one-electron reduction of diazonium cation >> Arenediazonium Salts OR Radical >> Radical mechanism by ROS formation OR Radical >> Radical mechanism by ROS formation (indirect) or direct radical attack on DNA OR Radical >> Radical mechanism by ROS formation (indirect) or direct radical attack on DNA >> Organic Peroxy Compounds OR Radical >> Radical mechanism by ROS formation >> Acridone, Thioxanthone, Xanthone and Phenazine Derivatives OR Radical >> Radical mechanism via ROS formation (indirect) OR Radical >> Radical mechanism via ROS formation (indirect) >> Amino Anthraquinones OR Radical >> Radical mechanism via ROS formation (indirect) >> Anthrones OR Radical >> Radical mechanism via ROS formation (indirect) >> C-Nitroso Compounds OR Radical >> Radical mechanism via ROS formation (indirect) >> Conjugated Nitro Compounds OR Radical >> Radical mechanism via ROS formation (indirect) >> Coumarins OR Radical >> Radical mechanism via ROS formation (indirect) >> Flavonoids OR Radical >> Radical mechanism via ROS formation (indirect) >> Fused-Ring Nitroaromatics OR Radical >> Radical mechanism via ROS formation (indirect) >> Fused-Ring Primary Aromatic Amines OR Radical >> Radical mechanism via ROS formation (indirect) >> Geminal Polyhaloalkane Derivatives OR Radical >> Radical mechanism via ROS formation (indirect) >> Haloalcohols OR Radical >> Radical mechanism via ROS formation (indirect) >> Hydrazine Derivatives OR Radical >> Radical mechanism via ROS formation (indirect) >> N-Hydroxylamines OR Radical >> Radical mechanism via ROS formation (indirect) >> Nitro Azoarenes OR Radical >> Radical mechanism via ROS formation (indirect) >> Nitroaniline Derivatives OR Radical >> Radical mechanism via ROS formation (indirect) >> Nitroarenes with Other Active Groups OR Radical >> Radical mechanism via ROS formation (indirect) >> Nitrophenols, Nitrophenyl Ethers and Nitrobenzoic Acids OR Radical >> Radical mechanism via ROS formation (indirect) >> p-Substituted Mononitrobenzenes OR Radical >> Radical mechanism via ROS formation (indirect) >> Quinones OR Radical >> Radical mechanism via ROS formation (indirect) >> Specific Imine and Thione Derivatives OR Radical >> ROS formation after GSH depletion (indirect) OR Radical >> ROS formation after GSH depletion (indirect) >> Quinoneimines OR SN1 OR SN1 >> Alkylation after metabolically formed carbenium ion species OR SN1 >> Alkylation after metabolically formed carbenium ion species >> Polycyclic Aromatic Hydrocarbon Derivatives OR SN1 >> Carbenium ion formation OR SN1 >> Carbenium ion formation >> Alpha-Haloethers OR SN1 >> DNA bases alkylation by carbenium ion formed OR SN1 >> DNA bases alkylation by carbenium ion formed >> Diazoalkanes OR SN1 >> Nucleophilic attack after carbenium ion formation OR SN1 >> Nucleophilic attack after carbenium ion formation >> N-Nitroso Compounds OR SN1 >> Nucleophilic attack after carbenium ion formation >> Pyrrolizidine Derivatives OR SN1 >> Nucleophilic attack after carbenium ion formation >> Specific Acetate Esters OR SN1 >> Nucleophilic attack after diazonium or carbenium ion formation OR SN1 >> Nucleophilic attack after diazonium or carbenium ion formation >> Nitroarenes with Other Active Groups OR SN1 >> Nucleophilic attack after metabolic nitrenium ion formation OR SN1 >> Nucleophilic attack after metabolic nitrenium ion formation >> Amino Anthraquinones OR SN1 >> Nucleophilic attack after metabolic nitrenium ion formation >> Fused-Ring Primary Aromatic Amines OR SN1 >> Nucleophilic attack after metabolic nitrenium ion formation >> N-Hydroxylamines OR SN1 >> Nucleophilic attack after nitrenium and/or carbenium ion formation OR SN1 >> Nucleophilic attack after nitrenium and/or carbenium ion formation >> N-Nitroso Compounds OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation >> Conjugated Nitro Compounds OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation >> Fused-Ring Nitroaromatics OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation >> Nitro Azoarenes OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation >> Nitroaniline Derivatives OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation >> Nitroarenes with Other Active Groups OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation >> Nitrobiphenyls and Bridged Nitrobiphenyls OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation >> Nitrophenols, Nitrophenyl Ethers and Nitrobenzoic Acids OR SN1 >> Nucleophilic attack after reduction and nitrenium ion formation >> p-Substituted Mononitrobenzenes OR SN1 >> Nucleophilic substitution after glutathione-induced nitrenium ion formation OR SN1 >> Nucleophilic substitution after glutathione-induced nitrenium ion formation >> C-Nitroso Compounds OR SN1 >> Nucleophilic substitution on diazonium ions OR SN1 >> Nucleophilic substitution on diazonium ions >> Specific Imine and Thione Derivatives OR SN1 >> SN1 reaction at nitrogen-atom bound to a good leaving group or on  nitrenium ion OR SN1 >> SN1 reaction at nitrogen-atom bound to a good leaving group or on  nitrenium ion >> N-Acyloxy(Alkoxy) Arenamides OR SN2 OR SN2 >> Acylation OR SN2 >> Acylation >> Hydroxamic Acids OR SN2 >> Acylation >> Specific Acetate Esters OR SN2 >> Acylation involving a leaving group  OR SN2 >> Acylation involving a leaving group  >> Geminal Polyhaloalkane Derivatives OR SN2 >> Acylation involving a leaving group after metabolic activation OR SN2 >> Acylation involving a leaving group after metabolic activation >> Geminal Polyhaloalkane Derivatives OR SN2 >> Alkylation by epoxide metabolically formed after E2 reaction OR SN2 >> Alkylation by epoxide metabolically formed after E2 reaction >> Haloalcohols OR SN2 >> Alkylation by epoxide metabolically formed after E2 reaction >> Monohaloalkanes OR SN2 >> Alkylation, direct acting epoxides and related OR SN2 >> Alkylation, direct acting epoxides and related >> Epoxides and Aziridines OR SN2 >> Alkylation, direct acting epoxides and related after cyclization OR SN2 >> Alkylation, direct acting epoxides and related after cyclization >> Nitrogen Mustards OR SN2 >> Alkylation, direct acting epoxides and related after P450-mediated metabolic activation OR SN2 >> Alkylation, direct acting epoxides and related after P450-mediated metabolic activation >> Haloalkenes with Electron-Withdrawing Groups OR SN2 >> Alkylation, direct acting epoxides and related after P450-mediated metabolic activation >> Polycyclic Aromatic Hydrocarbon Derivatives OR SN2 >> Alkylation, nucleophilic substitution at sp3-carbon atom OR SN2 >> Alkylation, nucleophilic substitution at sp3-carbon atom >> Monohaloalkanes OR SN2 >> Alkylation, nucleophilic substitution at sp3-carbon atom >> Sulfonates and Sulfates OR SN2 >> Alkylation, ring opening SN2 reaction OR SN2 >> Alkylation, ring opening SN2 reaction >> Four- and Five-Membered Lactones OR SN2 >> Direct acting epoxides formed after metabolic activation OR SN2 >> Direct acting epoxides formed after metabolic activation >> Coumarins OR SN2 >> Direct acting epoxides formed after metabolic activation >> Quinoline Derivatives OR SN2 >> Direct nucleophilic attack on diazonium cation OR SN2 >> Direct nucleophilic attack on diazonium cation >> Arenediazonium Salts OR SN2 >> DNA alkylation OR SN2 >> DNA alkylation >> Alkylphosphates, Alkylthiophosphates and Alkylphosphonates OR SN2 >> DNA alkylation >> Vicinal Dihaloalkanes OR SN2 >> Internal SN2 reaction with aziridinium and/or cyclic sulfonium ion formation (enzymatic) OR SN2 >> Internal SN2 reaction with aziridinium and/or cyclic sulfonium ion formation (enzymatic) >> Vicinal Dihaloalkanes OR SN2 >> Nucleophilic substitution after carbenium ion formation OR SN2 >> Nucleophilic substitution after carbenium ion formation >> Monohaloalkanes OR SN2 >> Nucleophilic substitution at sp3 Carbon atom OR SN2 >> Nucleophilic substitution at sp3 Carbon atom >> Haloalkanes Containing Heteroatom OR SN2 >> Nucleophilic substitution at sp3 Carbon atom >> Halofuranones OR SN2 >> Nucleophilic substitution at sp3 Carbon atom >> Specific Acetate Esters OR SN2 >> Nucleophilic substitution at sp3 carbon atom after thiol (glutathione) conjugation OR SN2 >> Nucleophilic substitution at sp3 carbon atom after thiol (glutathione) conjugation >> Geminal Polyhaloalkane Derivatives OR SN2 >> SN2 at an activated carbon atom OR SN2 >> SN2 at an activated carbon atom >> Quinoline Derivatives OR SN2 >> SN2 at Nitrogen Atom OR SN2 >> SN2 at Nitrogen Atom >> N-acetoxyamines OR SN2 >> SN2 at sp3 and activated sp2 carbon atom OR SN2 >> SN2 at sp3 and activated sp2 carbon atom >> Polarized Haloalkene Derivatives OR SN2 >> SN2 at sp3-carbon atom OR SN2 >> SN2 at sp3-carbon atom >> Alpha-Haloethers OR SN2 >> SN2 at sulfur atom OR SN2 >> SN2 at sulfur atom >> Sulfonyl Halides OR SN2 >> SN2 attack on activated carbon Csp3 or Csp2 OR SN2 >> SN2 attack on activated carbon Csp3 or Csp2 >> Nitroarenes with Other Active Groups OR SN2 >> SN2 reaction at nitrogen-atom bound to a good leaving group OR SN2 >> SN2 reaction at nitrogen-atom bound to a good leaving group >> N-Acetoxyamines OR SN2 >> SN2 reaction at nitrogen-atom bound to a good leaving group or nitrenium ion OR SN2 >> SN2 reaction at nitrogen-atom bound to a good leaving group or nitrenium ion >> N-Acyloxy(Alkoxy) Arenamides by DNA binding by OASIS v.1.3

Domain logical expression index: "h"

Referential boundary: The target chemical should be classified as Neutral Organics by US-EPA New Chemical Categories

Domain logical expression index: "i"

Referential boundary: The target chemical should be classified as Aryl AND Aryl halide AND Ether by Organic Functional groups

Domain logical expression index: "j"

Referential boundary: The target chemical should be classified as Aryl halide AND Ether AND Overlapping groups by Organic Functional groups (nested)

Domain logical expression index: "k"

Referential boundary: The target chemical should be classified as Aliphatic Carbon [CH] AND Aliphatic Carbon [-CH2-] AND Aliphatic Carbon [-CH3] AND Aromatic Carbon [C] AND Bromine, aromatic attach [-Br] AND Bromine, olefinic attach [-Br] AND Olefinic carbon [=CH- or =C<] AND Oxygen, one aromatic attach [-O-] by Organic functional groups (US EPA)

Domain logical expression index: "l"

Referential boundary: The target chemical should be classified as Alkylarylether AND Aromatic compound AND Aryl bromide AND Aryl halide AND Ether AND Halogen derivative by Organic functional groups, Norbert Haider (checkmol)

Domain logical expression index: "m"

Referential boundary: The target chemical should be classified as No alert found by DNA binding by OECD

Domain logical expression index: "n"

Referential boundary: The target chemical should be classified as Acylation OR Acylation >> Direct Addition of an Acyl Halide OR Acylation >> Direct Addition of an Acyl Halide >> Acyl halide OR Acylation >> Isocyanates and Isothiocyanates OR Acylation >> Isocyanates and Isothiocyanates >> Isocyanates OR Acylation >> Isocyanates and Isothiocyanates >> Isothiocyanates OR Acylation >> P450 Mediated Activation to Acyl Halides OR Acylation >> P450 Mediated Activation to Acyl Halides >> 1,1-Dihaloalkanes OR Acylation >> P450 Mediated Activation to Isocyanates or Isothiocyanates OR Acylation >> P450 Mediated Activation to Isocyanates or Isothiocyanates >> Benzylamines-Acylation OR Acylation >> P450 Mediated Activation to Isocyanates or Isothiocyanates >> Formamides OR Acylation >> P450 Mediated Activation to Isocyanates or Isothiocyanates >> Sulfonylureas OR Acylation >> P450 Mediated Activation to Isocyanates or Isothiocyanates >> Thioureas OR Michael addition OR Michael addition >> P450 Mediated Activation of Heterocyclic Ring Systems OR Michael addition >> P450 Mediated Activation of Heterocyclic Ring Systems >> Furans OR Michael addition >> P450 Mediated Activation of Heterocyclic Ring Systems >> Thiophenes-Michael addition OR Michael addition >> P450 Mediated Activation to Quinones and Quinone-type Chemicals OR Michael addition >> P450 Mediated Activation to Quinones and Quinone-type Chemicals >> 5-alkoxyindoles OR Michael addition >> P450 Mediated Activation to Quinones and Quinone-type Chemicals >> Alkyl phenols OR Michael addition >> P450 Mediated Activation to Quinones and Quinone-type Chemicals >> Arenes OR Michael addition >> P450 Mediated Activation to Quinones and Quinone-type Chemicals >> Hydroquinones OR Michael addition >> P450 Mediated Activation to Quinones and Quinone-type Chemicals >> Methylenedioxyphenyl OR Michael addition >> P450 Mediated Activation to Quinones and Quinone-type Chemicals >> Polycyclic (PAHs) and heterocyclic (HACs) aromatic hydrocarbons-Michael addition OR Michael addition >> Polarised Alkenes-Michael addition OR Michael addition >> Polarised Alkenes-Michael addition >> Alpha, beta- unsaturated amides OR Michael addition >> Polarised Alkenes-Michael addition >> Alpha, beta- unsaturated ketones OR Michael addition >> Quinones and Quinone-type Chemicals OR Michael addition >> Quinones and Quinone-type Chemicals >> Quinone-imines OR Michael addition >> Quinones and Quinone-type Chemicals >> Quinones OR Schiff base formers OR Schiff base formers >> Chemicals Activated by P450 to Glyoxal  OR Schiff base formers >> Chemicals Activated by P450 to Glyoxal  >> Ethanolamines (including morpholine) OR Schiff base formers >> Chemicals Activated by P450 to Mono-aldehydes OR Schiff base formers >> Chemicals Activated by P450 to Mono-aldehydes >> Benzylamines-Schiff base OR Schiff base formers >> Chemicals Activated by P450 to Mono-aldehydes >> N-methylol derivates OR Schiff base formers >> Chemicals Activated by P450 to Mono-aldehydes >> Thiazoles OR Schiff base formers >> Direct Acting Schiff Base Formers OR Schiff base formers >> Direct Acting Schiff Base Formers >> Alpha-beta-dicarbonyl OR Schiff base formers >> Direct Acting Schiff Base Formers >> Mono aldehydes OR SN1 OR SN1 >> Carbenium Ion Formation OR SN1 >> Carbenium Ion Formation >> Allyl benzenes OR SN1 >> Carbenium Ion Formation >> Alpha halo ethers (including alpha halo thioethers) OR SN1 >> Carbenium Ion Formation >> Diazoalkanes OR SN1 >> Carbenium Ion Formation >> N-Nitroso (alkylation) OR SN1 >> Carbenium Ion Formation >> Polycyclic (PAHs) and heterocyclic (HACs) aromatic hydrocarbons-SN1 OR SN1 >> Iminium Ion Formation OR SN1 >> Iminium Ion Formation >> Aliphatic tertiary amines OR SN1 >> Nitrenium Ion formation OR SN1 >> Nitrenium Ion formation >> Aromatic azo OR SN1 >> Nitrenium Ion formation >> Aromatic N-hydroxylamines OR SN1 >> Nitrenium Ion formation >> Aromatic nitro OR SN1 >> Nitrenium Ion formation >> Aromatic nitroso OR SN1 >> Nitrenium Ion formation >> Aromatic phenylureas OR SN1 >> Nitrenium Ion formation >> Primary (unsaturated) heterocyclic amine OR SN1 >> Nitrenium Ion formation >> Primary aromatic amine OR SN1 >> Nitrenium Ion formation >> Secondary (unsaturated) heterocyclic amine OR SN1 >> Nitrenium Ion formation >> Secondary aromatic amine OR SN1 >> Nitrenium Ion formation >> Tertiary (unsaturated) heterocyclic amine  OR SN1 >> Nitrenium Ion formation >> Tertiary aromatic amine OR SN1 >> Nitrenium Ion formation >> Unsaturated heterocyclic azo OR SN1 >> Nitrenium Ion formation >> Unsaturated heterocyclic nitro OR SN1 >> Nitrenium Ion formation >> Unsaturated heterocyclic nitroso OR SN1 >> Nitrenium Ion formation >> Unsaturated heterocyclic phenylureas OR SN2 OR SN2 >> Direct Acting Epoxides and related OR SN2 >> Direct Acting Epoxides and related >> Aziridines OR SN2 >> Direct Acting Epoxides and related >> Epoxides OR SN2 >> Direct Acting Epoxides and related >> Sulfuranes OR SN2 >> Episulfonium Ion Formation OR SN2 >> Episulfonium Ion Formation >> 1,2-Dihaloalkanes OR SN2 >> Episulfonium Ion Formation >> Mustards OR SN2 >> Epoxidation of Aliphatic Alkenes OR SN2 >> Epoxidation of Aliphatic Alkenes >> Halogenated polarised alkenes OR SN2 >> Epoxidation of Aliphatic Alkenes >> Phenoxy polarised alkenes OR SN2 >> Nitrosation-SN2 OR SN2 >> Nitrosation-SN2 >> Nitroso-SN2 OR SN2 >> P450 Mediated Epoxidation OR SN2 >> P450 Mediated Epoxidation >> Coumarins OR SN2 >> P450 Mediated Epoxidation >> Thiophenes-SN2 OR SN2 >> P450 Mediated Sulfoxidation OR SN2 >> P450 Mediated Sulfoxidation >> Thioureas-SN2 OR SN2 >> SN2 at a Nitrogen atom OR SN2 >> SN2 at a Nitrogen atom >> N-acyloxy-N-alkoxyamides OR SN2 >> SN2 at an sp3 Carbon atom OR SN2 >> SN2 at an sp3 Carbon atom >> Aliphatic halides OR SN2 >> SN2 at an sp3 Carbon atom >> Alkyl carbamates OR SN2 >> SN2 at an sp3 Carbon atom >> Phosphates OR SN2 >> SN2 at an sp3 Carbon atom >> Phosphonic esters OR SN2 >> SN2 at an sp3 Carbon atom >> Sulfonates by DNA binding by OECD

Domain logical expression index: "o"

Referential boundary: The target chemical should be classified as Neutral Organics by US-EPA New Chemical Categories

Domain logical expression index: "p"

Referential boundary: The target chemical should be classified as Aryl AND Aryl halide AND Ether by Organic Functional groups

Domain logical expression index: "q"

Referential boundary: The target chemical should be classified as Aryl halide AND Ether AND Overlapping groups by Organic Functional groups (nested)

Domain logical expression index: "r"

Referential boundary: The target chemical should be classified as Aliphatic Carbon [CH] AND Aliphatic Carbon [-CH2-] AND Aliphatic Carbon [-CH3] AND Aromatic Carbon [C] AND Bromine, aromatic attach [-Br] AND Bromine, olefinic attach [-Br] AND Olefinic carbon [=CH- or =C<] AND Oxygen, one aromatic attach [-O-] by Organic functional groups (US EPA)

Domain logical expression index: "s"

Referential boundary: The target chemical should be classified as Alkylarylether AND Aromatic compound AND Aryl bromide AND Aryl halide AND Ether AND Halogen derivative by Organic functional groups, Norbert Haider (checkmol)

Domain logical expression index: "t"

Referential boundary: The target chemical should be classified as Non binder, without OH or NH2 group by Estrogen Receptor Binding

Domain logical expression index: "u"

Referential boundary: The target chemical should be classified as Moderate binder, NH2 group OR Moderate binder, OH grooup OR Non binder, impaired OH or NH2 group OR Non binder, MW>500 OR Non binder, non cyclic structure OR Strong binder, NH2 group OR Strong binder, OH group OR Very strong binder, OH group OR Weak binder, NH2 group OR Weak binder, OH group by Estrogen Receptor Binding

Domain logical expression index: "v"

Referential boundary: The target chemical should be classified as Neutral Organics by US-EPA New Chemical Categories

Domain logical expression index: "w"

Referential boundary: The target chemical should be classified as Aryl AND Aryl halide AND Ether by Organic Functional groups

Domain logical expression index: "x"

Referential boundary: The target chemical should be classified as Aryl halide AND Ether AND Overlapping groups by Organic Functional groups (nested)

Domain logical expression index: "y"

Referential boundary: The target chemical should be classified as Aliphatic Carbon [CH] AND Aliphatic Carbon [-CH2-] AND Aliphatic Carbon [-CH3] AND Aromatic Carbon [C] AND Bromine, aromatic attach [-Br] AND Bromine, olefinic attach [-Br] AND Olefinic carbon [=CH- or =C<] AND Oxygen, one aromatic attach [-O-] by Organic functional groups (US EPA)

Domain logical expression index: "z"

Referential boundary: The target chemical should be classified as Alkylarylether AND Aromatic compound AND Aryl bromide AND Aryl halide AND Ether AND Halogen derivative by Organic functional groups, Norbert Haider (checkmol)

Domain logical expression index: "aa"

Referential boundary: The target chemical should be classified as No alert found by Protein binding by OECD

Domain logical expression index: "ab"

Referential boundary: The target chemical should be classified as Acylation OR Acylation >> Direct Acylation Involving a Leaving group OR Acylation >> Direct Acylation Involving a Leaving group >> Acetates OR Acylation >> Direct Acylation Involving a Leaving group >> Acyl halides (including benzyl and carbamoyl deriv.) OR Acylation >> Direct Acylation Involving a Leaving group >> Azlactone OR Acylation >> Direct Acylation Involving a Leaving group >> Sulphonyl halides OR Acylation >> Isocyanates and Related Chemicals OR Acylation >> Isocyanates and Related Chemicals >> Isocyanates OR Acylation >> Isocyanates and Related Chemicals >> Isothiocyanates OR Acylation >> Isocyanates and Related Chemicals >> Thiocyanates-Acylation OR Acylation >> Ring Opening Acylation OR Acylation >> Ring Opening Acylation >> alpha-Lactams OR Michael addition OR Michael addition >> Polarised Alkenes OR Michael addition >> Polarised Alkenes >> Polarised alkene - amides OR Michael addition >> Polarised Alkenes >> Polarised alkene - cyano OR Michael addition >> Polarised Alkenes >> Polarised alkene - esters OR Michael addition >> Polarised Alkenes >> Polarised alkene - ketones OR Michael addition >> Polarised Alkenes >> Polarised alkene - nitro OR Michael addition >> Polarised Alkenes >> Polarised alkene - pyridines OR Michael addition >> Quinones and Quinone-type Chemicals OR Michael addition >> Quinones and Quinone-type Chemicals >> Benzoquinones OR Michael addition >> Quinones and Quinone-type Chemicals >> Pyranones (and related nitrogen chemicals) OR Michael addition >> Quinones and Quinone-type Chemicals >> Quinone-diimine OR Schiff Base Formers OR Schiff Base Formers >> Direct Acting Schiff Base Formers OR Schiff Base Formers >> Direct Acting Schiff Base Formers >> 1-2-Dicarbonyls OR Schiff Base Formers >> Direct Acting Schiff Base Formers >> 1-3-Dicarbonyls OR Schiff Base Formers >> Direct Acting Schiff Base Formers >> Mono-carbonyls OR SN2 OR SN2 >> Episulfonium Ion Formation OR SN2 >> Episulfonium Ion Formation >> 1,2-Dihaloalkane OR SN2 >> Episulfonium Ion Formation >> Mustards OR SN2 >> Epoxides and Related Chemicals OR SN2 >> Epoxides and Related Chemicals >> Epoxides OR SN2 >> Epoxides and Related Chemicals >> Sulfuranes OR SN2 >> SN2 reaction at a nitrogen atom OR SN2 >> SN2 reaction at a nitrogen atom >> N-Acetoxy-N-acetyl-phenyl OR SN2 >> SN2 reaction at a nitrogen atom >> N-Acyloxy-N-alkoxyamides OR SN2 >> SN2 reaction at a sp2 carbon atom OR SN2 >> SN2 reaction at a sp2 carbon atom >> Polarised alkenes with a halogen leaving group OR SN2 >> SN2 reaction at a sulphur atom OR SN2 >> SN2 reaction at a sulphur atom >> Aromatic sulphonic acids OR SN2 >> SN2 reaction at a sulphur atom >> Disulfides OR SN2 >> SN2 reaction at a sulphur atom >> Sulfoxides of disulfides OR SN2 >> SN2 reaction at a sulphur atom >> Thiocyanates-SN2 OR SN2 >> SN2 reaction at a sulphur atom >> Thiols OR SN2 >> SN2 reaction at sp3 carbon atom OR SN2 >> SN2 reaction at sp3 carbon atom >> Alkyl diazo OR SN2 >> SN2 reaction at sp3 carbon atom >> Alkyl halides OR SN2 >> SN2 reaction at sp3 carbon atom >> Allyl acetates and related chemicals OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Halo ethers OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Haloalkenes (and related cyano, sulfate and sulfonate subs. chem.) OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Haloalkynes (and related cyano, sulfate, sulphpnate subs. chem.) OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Halobenzyls (and related cyano, sulfate and sulphonate subs. chem.) OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Halocarbonyls OR SN2 >> SN2 reaction at sp3 carbon atom >> beta-Halo ethers OR SN2 >> SN2 reaction at sp3 carbon atom >> Phosphates OR SN2 >> SN2 reaction at sp3 carbon atom >> Phosphonates OR SN2 >> SN2 reaction at sp3 carbon atom >> Sulfonates OR SN2 >> SN2 reaction at sp3 carbon atom >> Thiophosphates OR SNAr OR SNAr >> Nucleophilic aromatic substitution OR SNAr >> Nucleophilic aromatic substitution >> Activated halo-benzenes OR SNAr >> Nucleophilic aromatic substitution >> Activated halo-pyridines OR SNAr >> Nucleophilic aromatic substitution >> Halo-pyrimidines OR SNAr >> Nucleophilic aromatic substitution >> Halo-triazines by Protein binding by OECD

Domain logical expression index: "ac"

Referential boundary: The target chemical should be classified as Neutral Organics by US-EPA New Chemical Categories

Domain logical expression index: "ad"

Referential boundary: The target chemical should be classified as Aryl AND Aryl halide AND Ether by Organic Functional groups

Domain logical expression index: "ae"

Referential boundary: The target chemical should be classified as Aryl halide AND Ether AND Overlapping groups by Organic Functional groups (nested)

Domain logical expression index: "af"

Referential boundary: The target chemical should be classified as Aliphatic Carbon [CH] AND Aliphatic Carbon [-CH2-] AND Aliphatic Carbon [-CH3] AND Aromatic Carbon [C] AND Bromine, aromatic attach [-Br] AND Bromine, olefinic attach [-Br] AND Olefinic carbon [=CH- or =C<] AND Oxygen, one aromatic attach [-O-] by Organic functional groups (US EPA)

Domain logical expression index: "ag"

Referential boundary: The target chemical should be classified as Alkylarylether AND Aromatic compound AND Aryl bromide AND Aryl halide AND Ether AND Halogen derivative by Organic functional groups, Norbert Haider (checkmol)

Domain logical expression index: "ah"

Referential boundary: The target chemical should be classified as No alert found by Protein binding by OECD

Domain logical expression index: "ai"

Referential boundary: The target chemical should be classified as Acylation OR Acylation >> Direct Acylation Involving a Leaving group OR Acylation >> Direct Acylation Involving a Leaving group >> Acetates OR Acylation >> Direct Acylation Involving a Leaving group >> Acyl halides (including benzyl and carbamoyl deriv.) OR Acylation >> Direct Acylation Involving a Leaving group >> Azlactone OR Acylation >> Direct Acylation Involving a Leaving group >> Sulphonyl halides OR Acylation >> Isocyanates and Related Chemicals OR Acylation >> Isocyanates and Related Chemicals >> Isocyanates OR Acylation >> Isocyanates and Related Chemicals >> Isothiocyanates OR Acylation >> Isocyanates and Related Chemicals >> Thiocyanates-Acylation OR Acylation >> Ring Opening Acylation OR Acylation >> Ring Opening Acylation >> alpha-Lactams OR Michael addition OR Michael addition >> Polarised Alkenes OR Michael addition >> Polarised Alkenes >> Polarised alkene - amides OR Michael addition >> Polarised Alkenes >> Polarised alkene - cyano OR Michael addition >> Polarised Alkenes >> Polarised alkene - esters OR Michael addition >> Polarised Alkenes >> Polarised alkene - ketones OR Michael addition >> Polarised Alkenes >> Polarised alkene - nitro OR Michael addition >> Polarised Alkenes >> Polarised alkene - pyridines OR Michael addition >> Quinones and Quinone-type Chemicals OR Michael addition >> Quinones and Quinone-type Chemicals >> Benzoquinones OR Michael addition >> Quinones and Quinone-type Chemicals >> Pyranones (and related nitrogen chemicals) OR Michael addition >> Quinones and Quinone-type Chemicals >> Quinone-diimine OR Schiff Base Formers OR Schiff Base Formers >> Direct Acting Schiff Base Formers OR Schiff Base Formers >> Direct Acting Schiff Base Formers >> 1-2-Dicarbonyls OR Schiff Base Formers >> Direct Acting Schiff Base Formers >> 1-3-Dicarbonyls OR Schiff Base Formers >> Direct Acting Schiff Base Formers >> Mono-carbonyls OR SN2 OR SN2 >> Episulfonium Ion Formation OR SN2 >> Episulfonium Ion Formation >> 1,2-Dihaloalkane OR SN2 >> Episulfonium Ion Formation >> Mustards OR SN2 >> Epoxides and Related Chemicals OR SN2 >> Epoxides and Related Chemicals >> Epoxides OR SN2 >> Epoxides and Related Chemicals >> Sulfuranes OR SN2 >> SN2 reaction at a nitrogen atom OR SN2 >> SN2 reaction at a nitrogen atom >> N-Acetoxy-N-acetyl-phenyl OR SN2 >> SN2 reaction at a nitrogen atom >> N-Acyloxy-N-alkoxyamides OR SN2 >> SN2 reaction at a sp2 carbon atom OR SN2 >> SN2 reaction at a sp2 carbon atom >> Polarised alkenes with a halogen leaving group OR SN2 >> SN2 reaction at a sulphur atom OR SN2 >> SN2 reaction at a sulphur atom >> Aromatic sulphonic acids OR SN2 >> SN2 reaction at a sulphur atom >> Disulfides OR SN2 >> SN2 reaction at a sulphur atom >> Sulfoxides of disulfides OR SN2 >> SN2 reaction at a sulphur atom >> Thiocyanates-SN2 OR SN2 >> SN2 reaction at a sulphur atom >> Thiols OR SN2 >> SN2 reaction at sp3 carbon atom OR SN2 >> SN2 reaction at sp3 carbon atom >> Alkyl diazo OR SN2 >> SN2 reaction at sp3 carbon atom >> Alkyl halides OR SN2 >> SN2 reaction at sp3 carbon atom >> Allyl acetates and related chemicals OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Halo ethers OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Haloalkenes (and related cyano, sulfate and sulfonate subs. chem.) OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Haloalkynes (and related cyano, sulfate, sulphpnate subs. chem.) OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Halobenzyls (and related cyano, sulfate and sulphonate subs. chem.) OR SN2 >> SN2 reaction at sp3 carbon atom >> alpha-Halocarbonyls OR SN2 >> SN2 reaction at sp3 carbon atom >> beta-Halo ethers OR SN2 >> SN2 reaction at sp3 carbon atom >> Phosphates OR SN2 >> SN2 reaction at sp3 carbon atom >> Phosphonates OR SN2 >> SN2 reaction at sp3 carbon atom >> Sulfonates OR SN2 >> SN2 reaction at sp3 carbon atom >> Thiophosphates OR SNAr OR SNAr >> Nucleophilic aromatic substitution OR SNAr >> Nucleophilic aromatic substitution >> Activated halo-benzenes OR SNAr >> Nucleophilic aromatic substitution >> Activated halo-pyridines OR SNAr >> Nucleophilic aromatic substitution >> Halo-pyrimidines OR SNAr >> Nucleophilic aromatic substitution >> Halo-triazines by Protein binding by OECD

Domain logical expression index: "aj"

Referential boundary: The target chemical should be classified as Not possible to classify according to these rules by DPRA Cysteine peptide depletion

Domain logical expression index: "ak"

Referential boundary: The target chemical should be classified as High reactive OR High reactive >> Activated haloarenes OR High reactive >> alpha,beta-carbonyl compounds with polarized multiple bonds OR Low reactive OR Low reactive >> Alicyclic ketones by DPRA Cysteine peptide depletion

Domain logical expression index: "al"

Referential boundary: The target chemical should be classified as Bioavailable by Lipinski Rule Oasis ONLY

Domain logical expression index: "am"

Referential boundary: The target chemical should be classified as Halogens AND Non-Metals by Groups of elements

Domain logical expression index: "an"

Referential boundary: The target chemical should be classified as Alkali Earth by Groups of elements

Domain logical expression index: "ao"

Referential boundary: The target chemical should be classified as Group 14 - Carbon C AND Group 16 - Oxygen O AND Group 17 - Halogens Br AND Group 17 - Halogens F,Cl,Br,I,At by Chemical elements

Domain logical expression index: "ap"

Referential boundary: The target chemical should be classified as Group 15 - Nitrogen N OR Group 16 - Sulfur S OR Group 17 - Halogens Cl OR Group 17 - Halogens F by Chemical elements

Domain logical expression index: "aq"

Referential boundary: The target chemical should be classified as No alert found by Protein binding alerts for skin sensitization by OASIS v1.3

Domain logical expression index: "ar"

Referential boundary: The target chemical should be classified as Nucleophilic addition OR Nucleophilic addition >> Addition to carbon-hetero double bonds OR Nucleophilic addition >> Addition to carbon-hetero double bonds >> Ketones OR Schiff base formation OR Schiff base formation >> Direct acting Schiff base formers OR Schiff base formation >> Direct acting Schiff base formers >> 1,2-Dicarbonyls and 1,3-Dicarbonyls  by Protein binding alerts for skin sensitization by OASIS v1.3

Domain logical expression index: "as"

Referential boundary: The target chemical should be classified as Not known precedent reproductive and developmental toxic potential by DART scheme v.1.0

Domain logical expression index: "at"

Referential boundary: The target chemical should be classified as Aryl/heteroaryl substituted alkyl (C1-C3) acids (9b) OR Known precedent reproductive and developmental toxic potential OR Piperazine-, dioxane-, morpholine-, tetrahydrothiopyran-like derivatives and cyclohexanamine (17c) OR p-tert-Butyl-alpha-methylhydrocinnamic aldehyde (BMHCA)-like chemicals (9a) OR Toluene and small alkyl toluene derivatives (8a) by DART scheme v.1.0

Domain logical expression index: "au"

Referential boundary: The target chemical should be classified as No alert found by in vivo mutagenicity (Micronucleus) alerts by ISS

Domain logical expression index: "av"

Referential boundary: The target chemical should be classified as 1,3-dialkoxy-benzene OR H-acceptor-path3-H-acceptor OR Polycyclic Aromatic Hydrocarbons by in vivo mutagenicity (Micronucleus) alerts by ISS

Domain logical expression index: "aw"

Parametric boundary:The target chemical should have a value of log Kow which is >= 2.04

Domain logical expression index: "ax"

Parametric boundary:The target chemical should have a value of log Kow which is <= 3.86

Conclusions:
1-bromo-3-methoxybenzene failed to induce mutation in Salmonella typhimurium strain TA100 in the presence of S9 metabolic activation system and hence is predicted to not classify as a gene mutant in vitro.
Executive summary:

Based on the prediction done using the OECD QSAR toolbox version 3.3 with log kow as the primary descriptor and considering the five closest read across substances, gene mutation was predicted for 1-bromo-3-methoxybenzene using OECD QSAR toolbox version 3.3 (2017). The study assumed the use of Salmonella typhimurium strain TA100 with S9 metabolic activation system. 1-bromo-3-methoxybenzene failed to induce mutation in Salmonella typhimurium strain TA100 in the presence of S9 metabolic activation system.

Based on the results predicted, it can be concluded that the 1-bromo-3-methoxybenzene is considered to not toxic as per the criteria mentioned in CLP regulation.

Endpoint conclusion
Endpoint conclusion:
no adverse effect observed (negative)

Genetic toxicity in vivo

Endpoint conclusion
Endpoint conclusion:
no study available

Additional information

Gene mutation in vitro:

Prediction model based estimation for target chemical and data from read across chemicals were reviewed and are summarized below to determine the mutagenic nature of 1-bromo-3-methoxybenzene:

Based on the prediction done using the OECD QSAR toolbox version 3.3 with log kow as the primary descriptor and considering the five closest read across substances, gene mutation was predicted for 1-bromo-3-methoxybenzene using OECD QSAR toolbox version 3.3 (2017). The study assumed the use of Salmonella typhimurium strain TA100 with S9 metabolic activation system and strain TA1535 without S9 metabolic activation system. 1-bromo-3-methoxybenzene failed to induce mutation in Salmonella typhimurium strain TA100 in the presence of S9 metabolic activation system and TA1535 in the absence of S9 metabolic activation system. Based on the results predicted, it can be concluded that the substance is considered to not toxic as per the criteria mentioned in CLP regulation.

In another supporting data by Haworth et al ( Environmental Mutagenesis, 1983) for read across chemical, Gene mutation toxicity study was performed to determine the mutagenic nature of the structurally and functionally similar read across chemical Bromobenzene (RA CAS no 108 -86 -1). The study was performed by the preincubation protocol using Salmonella typhimurium strains TA1535, TA1537, TA98, and TA100 both in the presence and absence of S9 metabolic activation system. Preincubation was carried at 37°C for 20 mins followed by exposure period of 48 hrs at dose levels of 0.0, 3.3, 10.0, 33.0, 100.0, 333.0 µg/plate. Bromobenzene failed to induce mutation in the Salmonella typhimurium strains TA1535, TA1537, TA98, and TA100 both in the presence and absence of S9 metabolic activation system and hence the chemical is not likely to classify as a gene mutant in vitro.

Wild et al (Food and chemical toxicology, 1983) gave gene mutation toxicity study for another structurally and functionally similar read across chemical 2-Acetylnaphthalin (IUPAC name: 1-(2-naphthyl)ethanone; RA CAS no 93 -08 -3) artificial flavouring substance in food products was studied for mutagenic properties by the use of the Salmonella/mammalian microsome test (Ames test). The test was performed by plate incorporation method at 5 different doses upto 3600 µg/plate using Salmonella typhimurium TA98, TA100, TA1535, TA1537, TA1538 with and without S9 metabolic activation system and the plates were incubated for 48hrs. 2-Acetylnaphthalin is not mutagenic in the Salmonella/microsome AMES test performed using Salmonella typhimurium TA98, TA100, TA1535, TA1537, TA1538 in the presence and absence of S9 metabolic activation system and hence the chemical does not classify for gene mutation in vitro.

Based on the weight of evidence data summarized, 1-bromo-3-methoxybenzene does not exhibit gene mutation in vitro. Thus, the chemical is

is not likely to classify as a gene mutant in vitro as per the criteria mentioned in CLP regulation.

Justification for classification or non-classification

Based on the weight of evidence data summarized, 1-bromo-3-methoxybenzene does not exhibit gene mutation in vitro. Thus, the chemical is

is not likely to classify as a gene mutant in vitro as per the criteria mentioned in CLP regulation.