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Journal articles on the topic 'Dichloropropionic acid'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 February 2022

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1

Clemens, Markus, and Heinz Friedrich Schöler. "Determination of halogenated acetic acids and 2,2-dichloropropionic acid in water samples." Fresenius' Journal of Analytical Chemistry 344, no. 1-2 (1992): 47–49. http://dx.doi.org/10.1007/bf00324841.

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2

Zaidi, Zatty Zawani, and Fahrul Huyop. "Utilisation of 2,2DCP by Staphyloccocus aureus ZT and In Silico Analysis of Putative Dehalogenase." Biosaintifika: Journal of Biology & Biology Education 13, no. 1 (2021): 1–8. http://dx.doi.org/10.15294/biosaintifika.v13i1.26322.

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Halogenated compound such as 2,2-dichloropropionic acid is known for its toxicity and polluted many areas especially with agricultural activities. This study focused on the isolation and characterization of the bacterium that can utilise 2,2-dichloropropionic acid from palm oil plantation in Lenga, Johor and in silico analysis of putative dehalogenase obtained from NCBI database of the same genus and species. The bacterium was isolated using an enrichment culture media supplemented with 20 mM 2,2-dicholoropropionic acid as a carbon source. The cells were grown at 30˚C with cells doubling tim
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3

., Ng Hong Jing, and Fahrul Huyop . "Enzymatic Dehalogenation of 2,2-Dichloropropionic Acid by Locally Isolated Methylobacterium sp. HJ1." Journal of Biological Sciences 8, no. 1 (2007): 233–35. http://dx.doi.org/10.3923/jbs.2008.233.235.

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4

Onda, Masaaki, Kenzo Motosugi, and Hiroshi Nakajima. "A New Approach for Enzymatic Synthesis ofd-3-Chlorolactic Acid from Racemic 2,3-Dichloropropionic Acid by Halo Acid Dehalogenase." Agricultural and Biological Chemistry 54, no. 11 (1990): 3031–33. http://dx.doi.org/10.1080/00021369.1990.10870449.

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5

MAMEDOV, V. A., V. N. VALEEVA, L. A. ANTOKHINA, et al. "ChemInform Abstract: Darzens Synthesis of 3-(2-Furyl)-3-hydroxy-2,2-dichloropropionic Acid Derivatives." ChemInform 26, no. 12 (2010): no. http://dx.doi.org/10.1002/chin.199512135.

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6

Hasegawa, R., K. Naitoh, Y. Kawasaki, et al. "Acute and subacute toxicity studies on 2,3-dichloropropionic acid and chlorinated polyacrylamide in rats." Water Research 24, no. 5 (1990): 661–66. http://dx.doi.org/10.1016/0043-1354(90)90200-p.

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7

ONDA, Masaaki, Kenzo MOTOSUGI, and Hiroshi NAKAJIMA. "A new approach for enzymatic synthesis of D-3-chlorolactic acid from racemic 2,3-dichloropropionic acid by halo acid dehalogenase." Agricultural and Biological Chemistry 54, no. 11 (1990): 3031–33. http://dx.doi.org/10.1271/bbb1961.54.3031.

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8

Huyop, Fahrul, and Ronald Cooper. "Degradation of Millimolar Concentration of the Herbicide Dalapon (2,2-Dichloropropionic Acid) byRhizobiumSp. Isolated from Soil." Biotechnology & Biotechnological Equipment 26, no. 4 (2012): 3106–12. http://dx.doi.org/10.5504/bbeq.2012.0058.

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9

Tonecki, Jan. "Changes of respiration intensity and chlo'rophyll content in needles of Normay spruce (Picea abies L. Karst) seedlings treated with 2,4,5-T and dalapon." Acta Agrobotanica 28, no. 2 (2015): 177–95. http://dx.doi.org/10.5586/aa.1975.012.

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The results of investigations on the effect of 2,4,5-T (butyl ester of 2,4,5-trichlorophenoxy acetic acid) and dalapon (sodium salt of 2,2-dichloropropionic acid) on chlorophyll content and rate of respiration in needles of spruce seedlings, treated with different concentrations of both herbicides before bud development and during bud formation' are presented. 2,4,5-T and dalapon decreased chlorophyll a and b content in the needles. The chlorophyll a : b ratio increased after treatment with these herbicides. The lower concentrations tested produced a higher value of this coefficient. Depending
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10

Schnabelrauch, Matthias, Günter Geschwend, and Dieter Klemm. "Synthesis of bioactive 2,2-dichloropropionic acid esters of carboxymethyl cellulose and investigations on their release behavior." Journal of Applied Polymer Science 39, no. 3 (1990): 621–28. http://dx.doi.org/10.1002/app.1990.070390312.

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11

Christian, Frederick A., and J. Appiah Thompson. "Sublethal effects of 2,2-dichloropropionic acid (Dalapon) onFossaria cubensis, intermediate host of the liver fluke,Fasciola hepatica." Bulletin of Environmental Contamination and Toxicology 45, no. 3 (1990): 343–49. http://dx.doi.org/10.1007/bf01701156.

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12

Marchesi, Julian R., and Andrew J. Weightman. "Diversity of alpha-halocarboxylic acid dehalogenases in bacteria isolated from a pristine soil after enrichment and selection on the herbicide 2,2-dichloropropionic acid (Dalapon)." Environmental Microbiology 5, no. 1 (2003): 48–54. http://dx.doi.org/10.1046/j.1462-2920.2003.00384.x.

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13

Leroux, Gilles D., and Robert G. Harvey. "Herbicides for Sod-Seeding Establishment of Alfalfa (Medicago sativa) in Quackgrass (Agropyron repens)-Infested Alfalfa Swards." Weed Science 33, no. 2 (1985): 222–28. http://dx.doi.org/10.1017/s004317450008214x.

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The herbicides 2,4-D [(2,4-dichlorophenoxy) acetic acid], dalapon (2,2-dichloropropionic acid), glyphosate [(N-phosphonomethyl)glycine], paraquat (1,1’-dimethyl-4,4’-bypiridinium ion), and pronamide [3,5-dichloro-(N-1,1-dimethyl-2-propynyl)benzamide] were applied at selected rates and dates to quackgrass [Agropyron repens(L.) Beauv. ♯ AGRRE]-infested alfalfa (Medicago sativaL.) sod in 1979 and 1980 to suppress vegetation for subsequent establishment of alfalfa without tillage. The influence of herbicides on weed control, alfalfa seedling density and visual stand, and forage yield and quality w
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14

Gray, Reed A., and Grant K. Joo. "Reduction in Weed Control After Repeat Applications of Thiocarbamate and Other Herbicides." Weed Science 33, no. 5 (1985): 698–702. http://dx.doi.org/10.1017/s0043174500083119.

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Of 17 thiocarbamate herbicides tested in the greenhouse in repeat soil applications made 4 to 16 weeks apart, 9 showed definite losses in herbicidal activity after the second application. Those showing reduced activity included EPTC (S-ethyl dipropylthiocarbamate), vernolate (S-propyl dipropylthiocarbamate), and butylate (S-ethyl diisobutylthiocarbamate), which have been reported previously to develop accelerated breakdown, plus R-15574 (S-benzyl dipropylthiocarbamate and the sulfoxides of EPTC, vernolate, butylate, SC-7829 (S-propyl diisobutylthiocarbamate), and SC-8149 (S-butyl diisobutylthi
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15

Oyewusi, Habeebat Adekilekun, Roswanira Abdul Wahab, Yilmaz Kaya, Mohamed Faraj Edbeib, and Fahrul Huyop. "Alternative Bioremediation Agents against Haloacids, Haloacetates and Chlorpyrifos Using Novel Halogen-Degrading Bacterial Isolates from the Hypersaline Lake Tuz." Catalysts 10, no. 6 (2020): 651. http://dx.doi.org/10.3390/catal10060651.

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The indiscriminate use of chemical pesticides alongside the expansion of large-scale industries globally can critically jeopardize marine ecology and the well-being of mankind. This is because the agricultural runoffs and industrial effluents eventually enter waterways before flowing into highly saline environments i.e., oceans. Herein, the study assessed two novel bacterial isolates, Bacillus subtilis strain H1 and Bacillus thuringiensis strain H2 from the hypersaline Lake Tuz in Turkey to degrade recalcitrant haloalkanoic acids, haloacetates and chlorpyrifos, and consequently, identify their
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16

Meyer, Robert E., and Rodney W. Bovey. "Response of Herbaceous Vegetation in East-Central Texas to Herbicides." Weed Science 33, no. 1 (1985): 81–90. http://dx.doi.org/10.1017/s0043174500083971.

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Twenty herbicides were applied to a rangeland pasture in the Post Oak Savannah Resource Area of Texas in April 1978 and May 1979. At time of treatment, total vegetation cover was 88 to 100%, with 36% grasses and 52 to 64% broadleaf cover. From May 31 through September, total, grass, and broadleaf covers were 89 to 100, 51 to 65, and 27 to 44%, respectively. One to 2 months after treatment, grass cover generally increased except where certain herbicides, particularly bromacil (5-bromo-3-sec-butyl-6-methyluracil), dalapon (2,2-dichloropropionic acid), glyphosate [N-(phosphonomethyl)glycine], or
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17

Marchesi, Julian R., та Andrew J. Weightman. "Comparing the Dehalogenase Gene Pool in Cultivated α-Halocarboxylic Acid-Degrading Bacteria with the Environmental Metagene Pool". Applied and Environmental Microbiology 69, № 8 (2003): 4375–82. http://dx.doi.org/10.1128/aem.69.8.4375-4382.2003.

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ABSTRACT Culture-dependent and culture-independent approaches were used to determine the relationship between the dehalogenase gene pool in bacteria enriched and isolated on 2,2-dichloropropionic acid (22DCPA) and the environmental metagene pool (the collective gene pool of both the culturable and uncultured microbes) from which they were isolated. The dehalogenases in the pure-cultures isolates, which were able to degrade 22DCPA, were similar to previously described group I and II dehalogenases. Significantly, the majority of the dehalogenases isolated from activated sludge by degenerate PCR
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18

Millhollon, Rex W. "Progressive Kill of Rhizomatous Johnsongrass (Sorghum Halepense) from Repeated Treatment with Dalapon, MSMA, or Asulam." Weed Science 33, no. 2 (1985): 216–21. http://dx.doi.org/10.1017/s0043174500082138.

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Space-planted johnsongrass [Sorghum halepense(L.) Pers. ♯ SORHA] was clipped back to a height of 26 cm after flowering and, when 45 to 61 cm in height, was treated with various rates of the sodium salt of dalapon (2,2-dichloropropionic acid), MSMA (monosodium methanearsonate), or the sodium salt of asulam (methylsulfanilylcarbamate). Treatments were reapplied as needed during the growing season whenever a majority of surviving plants in a plot had initiated new foliar growth. Most plants were not killed by a single application of any herbicide, although rhizome development, as measured by the
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19

Edbeib, Mohamed Faraj, Roswanira Abdul Wahab, Fahrul Zaman Huyop, Hasan Murat Aksoy, and Yilmaz Kaya. "Further Analysis of Burkholderia pseudomallei MF2 and Identification of Putative Dehalogenase Gene by PCR." Indonesian Journal of Chemistry 20, no. 2 (2020): 386. http://dx.doi.org/10.22146/ijc.43262.

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Halogenated organic compounds are extensively and widely used as pesticides, herbicides, and antibiotics that contribute to the pollution. This research was aimed to further analyze and characterize a bacterium that has the ability to utilize 2,2-dichloropropionic acid (2,2-DCP) as a model to study dehalogenase enzyme production. Microscopic observation, biochemical tests and PCR technique were carried out in order to characterize the isolated bacterium. Strain MF2 showed its ability to grow on 10 mM 2,2-DCP liquid minimal medium with doubling time of 13 h with maximum chloride ion released of
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20

Wallace, A., PM Evans, and D. Bowran. "Effective barley grass (Hordeum spp.) control in annual medics with 2,2-DPA herbicide." Australian Journal of Experimental Agriculture 35, no. 6 (1995): 725. http://dx.doi.org/10.1071/ea9950725.

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The ability of 2,2-dichloropropionic acid (2,2-DPA) to control annual grasses was examined in a 4-year-old medic (Medicago polymorpha var. brevispina cv. Circle Valley) pasture. Six rates of 2,2-DPA with and without spray adjuvants (1% spray oil + 0.25% wetting agent) were used: 0.37, 0.56, 0.74, 1.11, 1.48, 2.22 kg a.i./ha. The pasture was sprayed in July at the 4-true-leaf stage of the medic, after identifying and counting grasses and medics. Plants were counted again after spraying and grass seed heads were counted in spring. At the end of the season, medic seed yields were obtained. Nine a
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21

Utami, Edy Setiti Wida, Dwi Setyo Rini, and Eka Sugiyarta. "PENGKAJIAN BERBAGAI KONSENTRASI RAGI ROTI UNTUK PERTUMBUHAN PLANLET TEBU Saccharum spp var PS 61 IN VITRO." Berkala Penelitian Hayati 6, no. 2 (2001): 145. http://dx.doi.org/10.23869/bphjbr.6.2.20017.

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This experiment was expect for the find of alternative substitution of dalapon herbicide, its have active materials as 2,2 dichloropropionat acid. The fuction of dichloropropionat is very important on the differentiation and growing of sugarcane plantlet. The purpose of the research was to know the effect some concentration of Baker yeast that consist Saccharomyces cereviceae to growth of sugarcane (Saccharum spp) var PS61 plantlet. This experiment was arranged in a Completely Randomized Design with eight treatments and four replications. The treatment were: (K) control; (Po) without dalapon h
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22

Wahhab, Batool Hazim Abdul, Nurul Hidayah Samsulrizal, Mohamed Faraj Edbeib, et al. "Genomic analysis of a functional haloacid-degrading gene of Bacillus megaterium strain BHS1 isolated from Blue Lake (Mavi Gölü, Turkey)." Annals of Microbiology 71, no. 1 (2021). http://dx.doi.org/10.1186/s13213-021-01625-9.

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Abstract Purpose Bacillus megaterium strain BHS1, isolated from an alkaline water sample taken from Mavi Gölü (Blue Lake, Turkey), can grow on minimal medium containing 2,2-dichloropropionic acid. We characterized this bacterium at the genomic level. Methods The HiSeq platform was used to carry out genome sequencing, de novo assembly, and scaffolding with strain BHS1. Next, genome data were analyzed to demarcate DNA regions containing protein-coding genes and determine the function of certain BHS1 genes. Finally, results from a colorimetric chloride ion–release assay demonstrated that strain B
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23

Damia Diyana Roslan. "Characterisation of Bacillus strains from volcanic area Gunung Sibayak able to degrade 2,2-dichloropropionic acid." African Journal of Microbiology Research 5, no. 28 (2011). http://dx.doi.org/10.5897/ajmr11.505.

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24

Ismail, S. N. F., Wahab, R. A., and Huyop, F. "Isolation and identification of bacteria isolated from ruminant animal waste that able to degrade 2,2-dichloropropionic acid (2,2-DCP)." Malaysian Journal of Microbiology, June 2016. http://dx.doi.org/10.21161/mjm.77715.

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25

"Identification and Characterization of a 2,2-Dichloropropionic Acid (2,2-DCP) Degrading Alkalotorelant Bacterium Strain BHS1 Isolated from Blue Lake, Turkey." Journal of Tropical Life Science 10, no. 3 (2020). http://dx.doi.org/10.11594/jtls.10.03.08.

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26

Hamzehalipour Almaki, Javad, Rozita Nasiri, Wong Tet Soon, and Fahrul Zaman Huyop. "IDENTIFICATION OF NOVEL BACTERIAL SPECIES CAPABLE OF DEGRADING DALAPON USING 16S RRNA SEQUENCING." Jurnal Teknologi 78, no. 6 (2016). http://dx.doi.org/10.11113/jt.v78.4763.

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2,2-dichloropropionic acid (2,2DCP) is used as herbicide in agricultural industry and it is one of the halogenated organic compounds distributed widely in the world causing contamination. In this study, a bacterial strain isolated from contaminated soil where halogenated pesticides applied in Universiti Teknologi Malaysia and it was named “JHA1”. Bacterium JHA1 was able to utilize 2,2 dichloropropionate 2,2-DCP or (Dalapon) as a source of carbon and energy. Based on 16S rRNA analysis, the isolate showed 87% identity to Terrabacter terrae strain PPLB. The identity score was lower than 98% so th
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