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Ethidium bromide

December 15, 2023

Not to be confused with Ethyl bromide.

Ethidium bromide (or homidium bromide,[2] chloride salt homidium chloride)[3][4] is an intercalating agent commonly used as a fluorescent tag (nucleic acid stain) in molecular biology laboratories for techniques such as agarose gel electrophoresis. It is commonly abbreviated as EtBr, which is also an abbreviation for bromoethane. To avoid confusion, some laboratories have used the abbreviation EthBr for this salt. When exposed to ultraviolet light, it will fluoresce with an orange colour, intensifying almost 20-fold after binding to DNA. Under the name homidium, it has been commonly used since the 1950s in veterinary medicine to treat trypanosomiasis in cattle.[5] The high incidence of antimicrobial resistance makes this treatment impractical in some areas, where the related isometamidium chloride is used instead. Despite its reputation as a mutagen, tests have shown it to have low mutagenicity without metabolic activation.[6][7]

Ethidium bromide
Names
Preferred IUPAC name
3,8-Diamino-5-ethyl-6-phenylphenanthridin-5-ium bromide
Other names
  • 2,7-Diamino-10-ethyl-6-phenylphenanthridinium bromide
  • 2,7-Diamino-10-ethyl-9-phenylphenanthridinium bromide
  • 3,8-Diamino-1-ethyl-6-phenylphenantridinium bromide
  • 5-Ethyl-6-phenyl-phenanthridine-3,8-diamine bromide
  • Ethidium bromide
  • Homidium bromide
  • EtBr
  • EthBr
Identifiers
  • 1239-45-8 Y
3D model (JSmol)
  • Interactive image
3642536
ChEBI
  • CHEBI:4883 Y
ChEMBL
  • ChEMBL284328 Y
ChemSpider
  • 14034 Y
ECHA InfoCard 100.013.622
EC Number
  • 214-984-6
KEGG
  • C11161 Y
  • 14710
RTECS number
  • SF7950000
UNII
  • 059NUO2Z1L Y
UN number 2811
  • DTXSID8025258
  • InChI=1S/C21H19N3.BrH/c1-2-24-20-13-16(23)9-11-18(20)17-10-8-15(22)12-19(17)21(24)14-6-4-3-5-7-14;/h3-13,23H,2,22H2,1H3;1H Y
    Key: ZMMJGEGLRURXTF-UHFFFAOYSA-N Y
  • InChI=1/C21H19N3.BrH/c1-2-24-20-13-16(23)9-11-18(20)17-10-8-15(22)12-19(17)21(24)14-6-4-3-5-7-14;/h3-13,23H,2,22H2,1H3;1H
    Key: ZMMJGEGLRURXTF-UHFFFAOYAD
  • CC[n+]1c2cc(N)ccc2c3ccc(N)cc3c1c4ccccc4.[Br-]
Properties
C21H20BrN3
Molar mass 394.294 g/mol
Appearance Purple-red solid
Melting point 260 to 262 °C (500 to 504 °F; 533 to 535 K)
~40 g/l
Pharmacology
QP51DX03 (WHO)
Hazards[1]
GHS labelling:
Danger
H302, H330, H341
P201, P202, P260, P284, P301+P312, P304+P340+P310
NFPA 704 (fire diamond)
Health 4: Very short exposure could cause death or major residual injury. E.g. VX gasFlammability 1: Must be pre-heated before ignition can occur. Flash point over 93 °C (200 °F). E.g. canola oilInstability 0: Normally stable, even under fire exposure conditions, and is not reactive with water. E.g. liquid nitrogenSpecial hazards (white): no code
4
1
0
Flash point > 100 °C (212 °F; 373 K)
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
Y verify (what is YN ?)

Structure, chemistry, and fluorescence edit

 
Absorption spectrum of ethidium bromide

As with most fluorescent compounds, ethidium bromide is aromatic. Its core heterocyclic moiety is generically known as a phenanthridine, an isomer of which is the fluorescent dye acridine. Absorption maxima of EtBr in aqueous solution are at 210 nm and 285 nm, which correspond to ultraviolet light. As a result of this excitation, EtBr emits orange light with wavelength 605 nm.[8][9]

Ethidium bromide's intense fluorescence after binding with DNA is probably not due to rigid stabilization of the phenyl moiety, because the phenyl ring has been shown to project outside the intercalated bases. In fact, the phenyl group is found to be almost perpendicular to the plane of the ring system, as it rotates about its single bond to find a position where it will impinge upon the ring system minimally. Instead, the hydrophobic environment found between the base pairs is believed to be responsible. By moving into this hydrophobic environment and away from the solvent, the ethidium cation is forced to shed any water molecules that were associated with it. As water is a highly efficient fluorescence quencher, the removal of these water molecules allows the ethidium to fluoresce.[citation needed]

Applications edit

 
DNA sample separated using gel electrophoresis of nucleic acids and stained with ethidium bromide, which emits orange light after binding to DNA

Ethidium bromide is commonly used to detect nucleic acids in molecular biology laboratories. In the case of DNA this is usually double-stranded DNA from PCRs, restriction digests, etc. Single-stranded RNA can also be detected, since it usually folds back onto itself and thus provides local base pairing for the dye to intercalate. Detection typically involves a gel containing nucleic acids placed on or under an ultraviolet lamp. Since ultraviolet light is harmful to eyes and skin, gels stained with ethidium bromide are usually viewed indirectly using an enclosed camera, with the fluorescent images recorded as photographs. Where direct viewing is needed, the viewer's eyes and exposed skin should be protected. In the laboratory the intercalating properties have long been used to minimize chromosomal condensation when a culture is exposed to mitotic arresting agents during harvest. The resulting slide preparations permit a higher degree of resolution, and thus more confidence in determining structural integrity of chromosomes upon microscopic analysis.[citation needed]

Ethidium bromide is also used during DNA fragment separation by agarose gel electrophoresis.[10] It is added to running buffer and binds by intercalating between DNA base pairs. When the agarose gel is illuminated using UV light, DNA bands become visible. Intercalation of EtBr can alter properties of the DNA molecule, such as charge, weight, conformation, and flexibility. Since the mobilities of DNA molecules through the agarose gel are measured relative to a molecular weight standard, the effects of EtBr can be critical to determining the sizes of molecules.[11]

Ethidium bromide has also been used extensively to reduce mitochondrial DNA copy number in proliferating cells.[12] The effect of EtBr on mitochondrial DNA is used in veterinary medicine to treat trypanosomiasis in cattle, as EtBr binds molecules of kinetoplastid DNA and changes their conformation to the Z-DNA form. This form inhibits replication of kinetoplastid DNA, which is lethal for trypanosomes.[13]

The chloride salt homidium chloride has the same applications.[3][4]

Ethidium bromide can be added to YPD media and used as an inhibitor for cell growth.[14]

The binding affinity of the cationic nanoparticles with DNA could be evaluated by competitive binding with ethidium bromide.[15][16]

Alternatives for gel edit

There are alternatives to ethidium bromide which are advertised as being less dangerous and having better performance.[17][18] For example, several SYBR-based dyes are used by some researchers and there are other emerging stains such as "Novel Juice". SYBR dyes are less mutagenic than EtBr by the Ames test with liver extract.[19] However, SYBR Green I was actually found to be more mutagenic than EtBr to the bacterial cells exposed to UV (which is used to visualize either dye).[20] This may be the case for other "safer" dyes, but while mutagenic and toxicity details are available[21] these have not been published in peer-reviewed journals. The MSDS for SYBR Safe reports an LD50 for rats of over 5 g/kg, which is higher than that of EtBr (1.5 g/kg). Many alternative dyes are suspended in DMSO, which has health implications of its own, including increased skin absorption of organic compounds.[19] Despite the performance advantage of using SYBR dyes instead of EtBr for staining purposes, many researchers still prefer EtBr since it is considerably less expensive.[citation needed]

Possible carcinogenic activity edit

 
Ethidium bromide intercalated between two adenine–thymine base pairs. The intercalation is said by some[by whom?] to motivate a high mutagenicity of DNA.[6]

Most use of ethidium bromide in the laboratory (0.25–1 µg/ml) is below the LD50 dosage, making acute toxicity unlikely. Testing in humans and longer studies in a mammalian system would be required to fully understand the long-term risk ethidium bromide poses to lab workers, but it is clear that ethidium bromide can cause mutations in mammalian and bacterial cells.[22]

Handling and disposal edit

Ethidium bromide is not regulated as hazardous waste at low concentrations,[23] but is treated as hazardous waste by many organizations. Material should be handled according to the manufacturer's Safety Data Sheet (SDS).[citation needed]

The disposal of laboratory ethidium bromide remains a controversial subject.[24] Ethidium bromide can be degraded chemically, or collected and incinerated. It is common for ethidium bromide waste below a mandated concentration to be disposed of normally (such as pouring it down a drain). A common practice is to treat ethidium bromide with sodium hypochlorite (bleach) before disposal.[25] According to Lunn and Sansone, chemical degradation using bleach yields compounds which are mutagenic by the Ames test. Data are lacking on the mutagenic effects of degradation products. Lunn and Sansone describe more effective methods for degradation.[26] Elsewhere, ethidium bromide removal from solutions with activated charcoal or ion exchange resin is recommended.[27] Various commercial products are available for this use.[28]

Drug resistance edit

Trypanosomes in the Gibe River Valley in southwest Ethiopia showed universal resistance between July 1989 and February 1993.[29] This likely indicates a permanent loss of function in this area against the tested target, T. congolense isolated from Boran cattle.[29]

See also edit

References edit

  1. ^ "GESTIS-Stoffdatenbank". gestis.dguv.de (in German). Retrieved 22 November 2021.
  2. ^ "Homidium bromide". PubChem. NCBI, NLM, US NIH. Retrieved 2020-09-08. CID 14710 from PubChem
  3. ^ a b Kinabo LD (September 1993). "Pharmacology of existing drugs for animal trypanosomiasis". Acta Tropica. Elsevier. 54 (3–4): 169–183. doi:10.1016/0001-706x(93)90091-o. PMID 7902656. S2CID 27564786.
  4. ^ a b "Homidium chloride". PubChem. NCBI, NLM, US NIH. Retrieved 2021-03-14. CID 11765 from PubChem
  5. ^ Stevenson P, Sones KR, Gicheru MM, Mwangi EK (May 1995). "Comparison of isometamidium chloride and homidium bromide as prophylactic drugs for trypanosomiasis in cattle at Nguruman, Kenya". Acta Tropica. 59 (2): 77–84. doi:10.1016/0001-706X(94)00080-K. PMID 7676909.
  6. ^ a b Lowe, Derek (2016-04-18). "The Myth of Ethidium Bromide". In the Pipeline. Retrieved 2019-02-28.
  7. ^ "Ethidium Bromide: Swap or Not | UCSB Sustainability". sustainability.ucsb.edu. Retrieved 2023-02-08.
  8. ^ Sabnis RW (2010). Handbook of Biological Dyes and Stains: Synthesis and Industrial Application. Hoboken, NJ: Wiley. ISBN 978-0-470-40753-0.
  9. ^ "Application Note: Ethidium Bromide" (PDF). Retrieved 6 April 2014.
  10. ^ Borst P (November 2005). "Ethidium DNA agarose gel electrophoresis: how it started". IUBMB Life. 57 (11): 745–747. doi:10.1080/15216540500380855. PMID 16511967.
  11. ^ Sigmon J, Larcom LL (October 1996). "The effect of ethidium bromide on mobility of DNA fragments in agarose gel electrophoresis". Electrophoresis. 17 (10): 1524–1527. doi:10.1002/elps.1150171003. PMID 8957173. S2CID 10593378.
  12. ^ Diaz F, Bayona-Bafaluy MP, Rana M, Mora M, Hao H, Moraes CT (November 2002). "Human mitochondrial DNA with large deletions repopulates organelles faster than full-length genomes under relaxed copy number control". Nucleic Acids Research. 30 (21): 4626–4633. doi:10.1093/nar/gkf602. PMC 135822. PMID 12409452.
  13. ^ Roy Chowdhury A, Bakshi R, Wang J, Yildirir G, Liu B, Pappas-Brown V, et al. (December 2010). "The killing of African trypanosomes by ethidium bromide". PLOS Pathogens. 6 (12): e1001226. doi:10.1371/journal.ppat.1001226. PMC 3002999. PMID 21187912.
  14. ^ Caesar R, Warringer J, Blomberg A (February 2006). "Physiological importance and identification of novel targets for the N-terminal acetyltransferase NatB". Eukaryotic Cell. 5 (2): 368–378. doi:10.1128/EC.5.2.368-378.2006. PMC 1405896. PMID 16467477.
  15. ^ Liang H, Peng B, Dong C, Liu L, Mao J, Wei S, et al. (October 2018). "Cationic nanoparticle as an inhibitor of cell-free DNA-induced inflammation". Nature Communications. 9 (1): 4291. Bibcode:2018NatCo...9.4291L. doi:10.1038/s41467-018-06603-5. PMC 6191420. PMID 30327464.
  16. ^ Olmsted J, Kearns DR (August 1977). "Mechanism of ethidium bromide fluorescence enhancement on binding to nucleic acids". Biochemistry. 16 (16): 3647–3654. doi:10.1021/bi00635a022. PMID 889813.
  17. ^ Huang Q, Fu WL (2005). "Comparative analysis of the DNA staining efficiencies of different fluorescent dyes in preparative agarose gel electrophoresis". Clinical Chemistry and Laboratory Medicine. 43 (8): 841–842. doi:10.1515/CCLM.2005.141. PMID 16201894. S2CID 27423672.
  18. ^ Madden D. "Safer stains for DNA". Retrieved 2009-12-08.
  19. ^ a b Singer VL, Lawlor TE, Yue S (February 1999). "Comparison of SYBR Green I nucleic acid gel stain mutagenicity and ethidium bromide mutagenicity in the Salmonella/mammalian microsome reverse mutation assay (Ames test)". Mutation Research. 439 (1): 37–47. doi:10.1016/s1383-5718(98)00172-7. PMID 10029672.
  20. ^ Ohta T, Tokishita S, Yamagata H (May 2001). "Ethidium bromide and SYBR Green I enhance the genotoxicity of UV-irradiation and chemical mutagens in E. coli". Mutation Research. 492 (1–2): 91–97. doi:10.1016/S1383-5718(01)00155-3. PMID 11377248.
  21. ^ "Novel Juice testing report" (PDF). Newmarket Scientific.
  22. ^ National Toxicology Program (2005-08-15). "Executive Summary Ethidium Bromide: Evidence for Possible Carcinogenic Activity" (PDF). Retrieved 2009-09-30.
  23. ^ "Executive Summary Ethidium Bromide" (PDF). National Toxicology Program. 2005-08-15. Retrieved 2009-09-30.
  24. ^ Hengen PN (June 1994). "Disposal of ethidium bromide". Trends in Biochemical Sciences. 19 (6): 257–258. doi:10.1016/0968-0004(94)90152-X. PMID 8073504.
  25. ^ Armour MA (2003). Hazardous Laboratory Chemicals Disposal Guide (3rd ed.). CRC. pp. 222–223. ISBN 1-56670-567-3.
  26. ^ Lunn G, Sansone EB (May 1987). "Ethidium bromide: destruction and decontamination of solutions". Analytical Biochemistry. 162 (2): 453–458. doi:10.1016/0003-2697(87)90419-2. PMID 3605608.
  27. ^ Quillardet, P.; Hofnung, M. (April 1988). "Ethidium bromide and safety--readers suggest alternative solutions". Trends in Genetics. 4 (4): 89–90. doi:10.1016/0168-9525(88)90092-3. PMID 3238760.
  28. ^ . Archived from the original on 2015-04-15. Retrieved 2006-10-03.
  29. ^ a b Mulugeta W, Wilkes J, Mulatu W, Majiwa PA, Masake R, Peregrine AS (April 1997). "Long-term occurrence of Trypanosoma congolense resistant to diminazene, isometamidium and homidium in cattle at Ghibe, Ethiopia". Acta Tropica. Elsevier. 64 (3–4): 205–217. doi:10.1016/s0001-706x(96)00645-6. PMID 9107367. S2CID 23878484.

External links edit

  •   Media related to Ethidium bromide at Wikimedia Commons

December 15, 2023
ethidium, bromide, confused, with, ethyl, bromide, homidium, bromide, chloride, salt, homidium, chloride, intercalating, agent, commonly, used, fluorescent, nucleic, acid, stain, molecular, biology, laboratories, techniques, such, agarose, electrophoresis, com. Not to be confused with Ethyl bromide Ethidium bromide or homidium bromide 2 chloride salt homidium chloride 3 4 is an intercalating agent commonly used as a fluorescent tag nucleic acid stain in molecular biology laboratories for techniques such as agarose gel electrophoresis It is commonly abbreviated as EtBr which is also an abbreviation for bromoethane To avoid confusion some laboratories have used the abbreviation EthBr for this salt When exposed to ultraviolet light it will fluoresce with an orange colour intensifying almost 20 fold after binding to DNA Under the name homidium it has been commonly used since the 1950s in veterinary medicine to treat trypanosomiasis in cattle 5 The high incidence of antimicrobial resistance makes this treatment impractical in some areas where the related isometamidium chloride is used instead Despite its reputation as a mutagen tests have shown it to have low mutagenicity without metabolic activation 6 7 Ethidium bromide NamesPreferred IUPAC name 3 8 Diamino 5 ethyl 6 phenylphenanthridin 5 ium bromideOther names 2 7 Diamino 10 ethyl 6 phenylphenanthridinium bromide2 7 Diamino 10 ethyl 9 phenylphenanthridinium bromide3 8 Diamino 1 ethyl 6 phenylphenantridinium bromide5 Ethyl 6 phenyl phenanthridine 3 8 diamine bromideEthidium bromideHomidium bromideEtBrEthBrIdentifiersCAS Number 1239 45 8 Y3D model JSmol Interactive imageBeilstein Reference 3642536ChEBI CHEBI 4883 YChEMBL ChEMBL284328 YChemSpider 14034 YECHA InfoCard 100 013 622EC Number 214 984 6KEGG C11161 YPubChem CID 14710RTECS number SF7950000UNII 059NUO2Z1L YUN number 2811CompTox Dashboard EPA DTXSID8025258InChI InChI 1S C21H19N3 BrH c1 2 24 20 13 16 23 9 11 18 20 17 10 8 15 22 12 19 17 21 24 14 6 4 3 5 7 14 h3 13 23H 2 22H2 1H3 1H YKey ZMMJGEGLRURXTF UHFFFAOYSA N YInChI 1 C21H19N3 BrH c1 2 24 20 13 16 23 9 11 18 20 17 10 8 15 22 12 19 17 21 24 14 6 4 3 5 7 14 h3 13 23H 2 22H2 1H3 1HKey ZMMJGEGLRURXTF UHFFFAOYADSMILES CC n 1c2cc N ccc2c3ccc N cc3c1c4ccccc4 Br PropertiesChemical formula C21H20BrN3Molar mass 394 294 g molAppearance Purple red solidMelting point 260 to 262 C 500 to 504 F 533 to 535 K Solubility in water 40 g lPharmacologyATCvet code QP51DX03 WHO Hazards 1 GHS labelling PictogramsSignal word DangerHazard statements H302 H330 H341Precautionary statements P201 P202 P260 P284 P301 P312 P304 P340 P310NFPA 704 fire diamond 410Flash point gt 100 C 212 F 373 K Except where otherwise noted data are given for materials in their standard state at 25 C 77 F 100 kPa Y verify what is Y N Infobox references Contents 1 Structure chemistry and fluorescence 2 Applications 2 1 Alternatives for gel 3 Possible carcinogenic activity 4 Handling and disposal 5 Drug resistance 6 See also 7 References 8 External linksStructure chemistry and fluorescence edit nbsp Absorption spectrum of ethidium bromideAs with most fluorescent compounds ethidium bromide is aromatic Its core heterocyclic moiety is generically known as a phenanthridine an isomer of which is the fluorescent dye acridine Absorption maxima of EtBr in aqueous solution are at 210 nm and 285 nm which correspond to ultraviolet light As a result of this excitation EtBr emits orange light with wavelength 605 nm 8 9 Ethidium bromide s intense fluorescence after binding with DNA is probably not due to rigid stabilization of the phenyl moiety because the phenyl ring has been shown to project outside the intercalated bases In fact the phenyl group is found to be almost perpendicular to the plane of the ring system as it rotates about its single bond to find a position where it will impinge upon the ring system minimally Instead the hydrophobic environment found between the base pairs is believed to be responsible By moving into this hydrophobic environment and away from the solvent the ethidium cation is forced to shed any water molecules that were associated with it As water is a highly efficient fluorescence quencher the removal of these water molecules allows the ethidium to fluoresce citation needed Applications edit nbsp DNA sample separated using gel electrophoresis of nucleic acids and stained with ethidium bromide which emits orange light after binding to DNAEthidium bromide is commonly used to detect nucleic acids in molecular biology laboratories In the case of DNA this is usually double stranded DNA from PCRs restriction digests etc Single stranded RNA can also be detected since it usually folds back onto itself and thus provides local base pairing for the dye to intercalate Detection typically involves a gel containing nucleic acids placed on or under an ultraviolet lamp Since ultraviolet light is harmful to eyes and skin gels stained with ethidium bromide are usually viewed indirectly using an enclosed camera with the fluorescent images recorded as photographs Where direct viewing is needed the viewer s eyes and exposed skin should be protected In the laboratory the intercalating properties have long been used to minimize chromosomal condensation when a culture is exposed to mitotic arresting agents during harvest The resulting slide preparations permit a higher degree of resolution and thus more confidence in determining structural integrity of chromosomes upon microscopic analysis citation needed Ethidium bromide is also used during DNA fragment separation by agarose gel electrophoresis 10 It is added to running buffer and binds by intercalating between DNA base pairs When the agarose gel is illuminated using UV light DNA bands become visible Intercalation of EtBr can alter properties of the DNA molecule such as charge weight conformation and flexibility Since the mobilities of DNA molecules through the agarose gel are measured relative to a molecular weight standard the effects of EtBr can be critical to determining the sizes of molecules 11 Ethidium bromide has also been used extensively to reduce mitochondrial DNA copy number in proliferating cells 12 The effect of EtBr on mitochondrial DNA is used in veterinary medicine to treat trypanosomiasis in cattle as EtBr binds molecules of kinetoplastid DNA and changes their conformation to the Z DNA form This form inhibits replication of kinetoplastid DNA which is lethal for trypanosomes 13 The chloride salt homidium chloride has the same applications 3 4 Ethidium bromide can be added to YPD media and used as an inhibitor for cell growth 14 The binding affinity of the cationic nanoparticles with DNA could be evaluated by competitive binding with ethidium bromide 15 16 Alternatives for gel edit This section needs expansion with Substitution regarding GelRed You can help by adding to it April 2022 There are alternatives to ethidium bromide which are advertised as being less dangerous and having better performance 17 18 For example several SYBR based dyes are used by some researchers and there are other emerging stains such as Novel Juice SYBR dyes are less mutagenic than EtBr by the Ames test with liver extract 19 However SYBR Green I was actually found to be more mutagenic than EtBr to the bacterial cells exposed to UV which is used to visualize either dye 20 This may be the case for other safer dyes but while mutagenic and toxicity details are available 21 these have not been published in peer reviewed journals The MSDS for SYBR Safe reports an LD50 for rats of over 5 g kg which is higher than that of EtBr 1 5 g kg Many alternative dyes are suspended in DMSO which has health implications of its own including increased skin absorption of organic compounds 19 Despite the performance advantage of using SYBR dyes instead of EtBr for staining purposes many researchers still prefer EtBr since it is considerably less expensive citation needed Possible carcinogenic activity edit nbsp Ethidium bromide intercalated between two adenine thymine base pairs The intercalation is said by some by whom to motivate a high mutagenicity of DNA 6 Most use of ethidium bromide in the laboratory 0 25 1 µg ml is below the LD50 dosage making acute toxicity unlikely Testing in humans and longer studies in a mammalian system would be required to fully understand the long term risk ethidium bromide poses to lab workers but it is clear that ethidium bromide can cause mutations in mammalian and bacterial cells 22 Handling and disposal editEthidium bromide is not regulated as hazardous waste at low concentrations 23 but is treated as hazardous waste by many organizations Material should be handled according to the manufacturer s Safety Data Sheet SDS citation needed The disposal of laboratory ethidium bromide remains a controversial subject 24 Ethidium bromide can be degraded chemically or collected and incinerated It is common for ethidium bromide waste below a mandated concentration to be disposed of normally such as pouring it down a drain A common practice is to treat ethidium bromide with sodium hypochlorite bleach before disposal 25 According to Lunn and Sansone chemical degradation using bleach yields compounds which are mutagenic by the Ames test Data are lacking on the mutagenic effects of degradation products Lunn and Sansone describe more effective methods for degradation 26 Elsewhere ethidium bromide removal from solutions with activated charcoal or ion exchange resin is recommended 27 Various commercial products are available for this use 28 Drug resistance editTrypanosomes in the Gibe River Valley in southwest Ethiopia showed universal resistance between July 1989 and February 1993 29 This likely indicates a permanent loss of function in this area against the tested target T congolense isolated from Boran cattle 29 See also editPhenanthridine Agarose gel electrophoresis and gel electrophoresis of nucleic acids GelRed itself derived from ethbr and GelGreen marketed as safer and more intense DNA stains Propidium iodide and propidium monoazide related dyesReferences edit GESTIS Stoffdatenbank gestis dguv de in German Retrieved 22 November 2021 Homidium bromide PubChem NCBI NLM US NIH Retrieved 2020 09 08 CID 14710 from PubChem a b Kinabo LD September 1993 Pharmacology of existing drugs for animal trypanosomiasis Acta Tropica Elsevier 54 3 4 169 183 doi 10 1016 0001 706x 93 90091 o PMID 7902656 S2CID 27564786 a b Homidium chloride PubChem NCBI NLM US NIH Retrieved 2021 03 14 CID 11765 from PubChem Stevenson P Sones KR Gicheru MM Mwangi EK May 1995 Comparison of isometamidium chloride and homidium bromide as prophylactic drugs for trypanosomiasis in cattle at Nguruman Kenya Acta Tropica 59 2 77 84 doi 10 1016 0001 706X 94 00080 K PMID 7676909 a b Lowe Derek 2016 04 18 The Myth of Ethidium Bromide In the Pipeline Retrieved 2019 02 28 Ethidium Bromide Swap or Not UCSB Sustainability sustainability ucsb edu Retrieved 2023 02 08 Sabnis RW 2010 Handbook of Biological Dyes and Stains Synthesis and Industrial Application Hoboken NJ Wiley ISBN 978 0 470 40753 0 Application Note Ethidium Bromide PDF Retrieved 6 April 2014 Borst P November 2005 Ethidium DNA agarose gel electrophoresis how it started IUBMB Life 57 11 745 747 doi 10 1080 15216540500380855 PMID 16511967 Sigmon J Larcom LL October 1996 The effect of ethidium bromide on mobility of DNA fragments in agarose gel electrophoresis Electrophoresis 17 10 1524 1527 doi 10 1002 elps 1150171003 PMID 8957173 S2CID 10593378 Diaz F Bayona Bafaluy MP Rana M Mora M Hao H Moraes CT November 2002 Human mitochondrial DNA with large deletions repopulates organelles faster than full length genomes under relaxed copy number control Nucleic Acids Research 30 21 4626 4633 doi 10 1093 nar gkf602 PMC 135822 PMID 12409452 Roy Chowdhury A Bakshi R Wang J Yildirir G Liu B Pappas Brown V et al December 2010 The killing of African trypanosomes by ethidium bromide PLOS Pathogens 6 12 e1001226 doi 10 1371 journal ppat 1001226 PMC 3002999 PMID 21187912 Caesar R Warringer J Blomberg A February 2006 Physiological importance and identification of novel targets for the N terminal acetyltransferase NatB Eukaryotic Cell 5 2 368 378 doi 10 1128 EC 5 2 368 378 2006 PMC 1405896 PMID 16467477 Liang H Peng B Dong C Liu L Mao J Wei S et al October 2018 Cationic nanoparticle as an inhibitor of cell free DNA induced inflammation Nature Communications 9 1 4291 Bibcode 2018NatCo 9 4291L doi 10 1038 s41467 018 06603 5 PMC 6191420 PMID 30327464 Olmsted J Kearns DR August 1977 Mechanism of ethidium bromide fluorescence enhancement on binding to nucleic acids Biochemistry 16 16 3647 3654 doi 10 1021 bi00635a022 PMID 889813 Huang Q Fu WL 2005 Comparative analysis of the DNA staining efficiencies of different fluorescent dyes in preparative agarose gel electrophoresis Clinical Chemistry and Laboratory Medicine 43 8 841 842 doi 10 1515 CCLM 2005 141 PMID 16201894 S2CID 27423672 Madden D Safer stains for DNA Retrieved 2009 12 08 a b Singer VL Lawlor TE Yue S February 1999 Comparison of SYBR Green I nucleic acid gel stain mutagenicity and ethidium bromide mutagenicity in the Salmonella mammalian microsome reverse mutation assay Ames test Mutation Research 439 1 37 47 doi 10 1016 s1383 5718 98 00172 7 PMID 10029672 Ohta T Tokishita S Yamagata H May 2001 Ethidium bromide and SYBR Green I enhance the genotoxicity of UV irradiation and chemical mutagens in E coli Mutation Research 492 1 2 91 97 doi 10 1016 S1383 5718 01 00155 3 PMID 11377248 Novel Juice testing report PDF Newmarket Scientific National Toxicology Program 2005 08 15 Executive Summary Ethidium Bromide Evidence for Possible Carcinogenic Activity PDF Retrieved 2009 09 30 Executive Summary Ethidium Bromide PDF National Toxicology Program 2005 08 15 Retrieved 2009 09 30 Hengen PN June 1994 Disposal of ethidium bromide Trends in Biochemical Sciences 19 6 257 258 doi 10 1016 0968 0004 94 90152 X PMID 8073504 Armour MA 2003 Hazardous Laboratory Chemicals Disposal Guide 3rd ed CRC pp 222 223 ISBN 1 56670 567 3 Lunn G Sansone EB May 1987 Ethidium bromide destruction and decontamination of solutions Analytical Biochemistry 162 2 453 458 doi 10 1016 0003 2697 87 90419 2 PMID 3605608 Quillardet P Hofnung M April 1988 Ethidium bromide and safety readers suggest alternative solutions Trends in Genetics 4 4 89 90 doi 10 1016 0168 9525 88 90092 3 PMID 3238760 Ethidium Bromide Disposal Archived from the original on 2015 04 15 Retrieved 2006 10 03 a b Mulugeta W Wilkes J Mulatu W Majiwa PA Masake R Peregrine AS April 1997 Long term occurrence of Trypanosoma congolense resistant to diminazene isometamidium and homidium in cattle at Ghibe Ethiopia Acta Tropica Elsevier 64 3 4 205 217 doi 10 1016 s0001 706x 96 00645 6 PMID 9107367 S2CID 23878484 External links edit nbsp Media related to Ethidium bromide at Wikimedia Commons Retrieved from https en wikipedia org w index php title Ethidium bromide amp oldid 1188126811, wikipedia, wiki, book, books, library,

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