2,6-Diphenylpyridines: a new class of herbicides - ACS Publications

Agricultural Science Research Laboratory, Takarazuka Research Center, Sumitomo Chemical Company Ltd.,. Takatsukasa, Takarazuka, Hyogo 665, Japan...
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J. Agric. Food Chem. 1001, 39, 2279-2281

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2,6-Diphenylpyridines: A New Class of Herbicides Shinichi Kawamura, Tatsuhiro Hamada, Ryo Sato, and Yuzuru Sanemitsu' Agricultural Science Research Laboratory, Takarazuka Research Center, Sumitomo Chemical Company LM., Takatsukasa, Takarazuka, Hyogo 665, Japan Gerhard Sandmann Lehrstuhl fur Physiologie und Biochemie der Pflanzen, Universitlt Konstanz, P.O. Box 5560, D-7750 Konstanz, Germany Peter Babczinski Agrochemical Division, Monheim Research Center, Bayer AG, D-5090 Leverkusen, Germany

A novel series of 4-substituted 2,6-diphenylpyridines was synthesized and found to possess potent bleaching herbicidal activity. These diphenylpyridines, which incorporate a pyridine nucleus substituted by two phenyl moieties, are new chemical families of bleaching herbicides. To clarify the structureactivity relationships, a variety of diphenylpyridines was prepared. The results indicated very specific structure requirement for herbicidal activity. In general, herbicidal activity was the highest in compounds that contain three substituents: a trifluoromethyl or methyl group at the 2- or 3-position of one phenyl ring, a trifluoromethyl group at the 4-position of the other, and a methoxy or methylthio group at the pyridine 4-position.

Scheme I A variety of pyridines .is known to possess herbicidal activities (Martin, 1966). However, only a few heterocycles 1) O y A r ' with a pyridine nucleus have been reported as bleaching herbicides (Boger et al., 1989). Recently, a series of A r G R herbicidal pyridine derivatives was disclosed (Bartels et al., 1978; Cramp et al., 1987). In our continuing effort to find a new class of herbicides, we have determined the herbicidal activities of 3-(methylthio)-I-amin0-1,6-dihydro-1,2,4-triazin-5(4H)-ones(Sanemitsu et al., 1985), mCPBA 3-(dimethylamino)-4H-(1,2,4)triazino[5,6-b]indoles (Mizutani et al., 1987),and 3,6-dichloro-1,2,4-triazines (Sanemitsu et al., 1990). Further investigation in the search for R'ONa herbicidal heterocycles led to the discoveryof 2,6-diphenyl4-(methy1thio)pyridine (1) as a new lead compound, which showed bleaching symptoms at 8OOO g/ha. Our interest in the structure and herbicidal activity of this novel heterocyclic compound prompted us to examine a systematic screening study on diphenylpyridine herbicide. Here, we now report the syntheses and the herbicidal BIOLOGICAL TESTING activities of diphenylpyridines. The pre- and postemergent herbicide evaluations were EXPERIMENTAL PROCEDURES conducted on all target compounds from the series mentioned above. The test species included in these Synthetic Methods. The general synthesesand examples of evaluations were cleavers (Galium aparine), common diphenylpyridines (meltingpoints)were reported in a US. patent chickweed (Stellaria media), field pansy (Viola aruen(Kawamura et al., 1989). sis),Persian speedwell (Veronicapersica),rounded cham2,6-Diphenyl-4-(alkylthio)pyridines(B) were synthesized in two steps (SchemeI) from 3,3-bis(alkylthio)-l-phenyl-2-propen- omile (Matricaria matricarioides), field pennycress (Thluspiaruense),Japanese millet (Echinochloafrumen1-ones (A) which were prepared by the reaction of acetophetacea),oat (Avena Sativa), garden radish (Raphanussanones with carbon disulfide followed by treatment with alkyl halides (Potta et al., 1982). Treatment of 3,3-bis(alkylthio)-ltiuus), velvetleaf (Abutilon theophrasti), and morning phenyl-2-propen-1-ones (A) with acetopheones followed by glory (Ipomoea purpurea). treatment with ammonium acetate yielded the 2,6-diphenyl-4For the pre- and postemergent tests, an emulsifiable (alky1thio)pyridines (B) (Potta et al., 1982). The conversion of concentrate is prepared by mixing 10 parts of the comalkylthio derivatives (B) to alkoxy derivatives (D) was achieved pound, 14 parts of polyoxyethylene styrylphenyl ether, 6 by a process through a nucleophilic displacement. Treatment of parts of calcium dodecylbenzenesulfonate, and 70 parts 4-alkylthio derivatives (B) with m-chloroperbenzoic acid gave of xylene. the corresponding 4-(alkylsulfonyl)pyridines(C). The 4-(alkylPostemergenceTests (Table I). Upland field soil filled sulfony1)pyridines(C)were converted to the 4-(alkoxy)pyridines in a cylindrical plastic pot (10 cm in diameter and 10 cm (D)by treatment with sodium alkoxides as exemplified in Scheme deep) was sown with Japanese millet, oat, garden radish, I.

- ArPAr I

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ArGAr'

0021-856119 1I1439-2279$02.5QlQ

0 1991 American Chemical Society

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J. Agric.

Food Chem., Vol. 39, No. 12, 1991

Kawamura et al.

Table 11. Preemergence Herbicidal Activities of 2,6-Diphenyl-4-(methylthio)pyridines

Table I. Postemergence Herbicidal Activities of 2,6-Diphenyl-4-(methylthio)pyridines

no. X, 1 H 2 2-Me 3 2x1 4 2-Br 5 2-CF3 6 3-Me 7 3-F 8 341 9 3-Br 10 3-CF3 11 3-Oi-Pr 12 4-Me 13 4-F 14 4-C1 15 4-Br 16 4-CF3 17 4-OMe 18 2,4-C12 19 2,5-c12 20 3,4-c12 21 3,5-(CF3)z 22 2 4 1 23 2-Me 24 2-Me 25 2-Me 26 2 x 1 27 2-Me 28 2-Me 29 2-Me 30 2-Me 31 2-CF3 32 2-CF3 33 3-C1 34 3-CF3 35 3-CF3 36 3-CF3 37 4-C1 38 4-C1 39 4-OMe

Y H H H H H H H H H H H H H H H H H H H H H 241 2-Me 341 3-CF3 3-CF3 4-F 4-C1 4-Br 4-CF3 4-F 4-CF3 4-OMe 4-F 441 4-CF3 4-Me 4-c1 4-OMe

dose giving 70% phototoxicity, g/ha Japanese garden oat radish velvetleaf millet >8000

1200 4400 >8000

1000 500 700

2000 >8000

1000

>8000 >8OOo >8000 >8000 8000

8000 8000 8000 >8000 3800

>BOO0

>8000 8000 500

1100 8000

>8000

800 8000

2000

>BOO0

8000 >8000 >8OOo >8OOo >8000 >8OOo >8OOo >8000 >8000 >8000

>8OOo >8000 >8000 >8OOo >8000 >8000

>BOO0

2000

>8000 >8000 >8000 8000

8000

>BOO0

4500

8000

700

2000

2000 2000 2000

8000

3800

5200 4500 2000 900 >BOO0 2000 1500 2000

>8000 >8000 >8000

>8000 >8000 >8000

700 700 >8000

1200 8000

8000

c500 900 >8OOo >8000 >8000 >8000 >8000

>BOO0 >8OOo