bis (alkylthio) oxime carbamates - American Chemical Society

Alan R. Friedman and Edwin G. Gemrich, II*. The insecticidal, miticidal, nematicidal, and anti- cholinesterase activities of a series of a,a-bis(alkyl...
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Pesticidal Activity of a,a-Bis( alkylthio) oxime Carbamates A l a n R. F r i e d m a n and Edwin G. G e m r i c h , 11"

The insecticidal, miticidal, nematicidal, and anticholinesterase activities of a series of a,a-bis(alky1thio)oxime carbamates were investigated. Structureactivity relationships between the various biological groups were often nonparallel. Although several

vv

compounds displayed high biological activity in one or more of the screens, 2-methyl-l,3-dithiolane-2carboxaldehyde 0-(methylcarbamoy1)oxime demonstrated the best broad spectrum activity.

'e have been involved in the synthesis and pesticidal testing of a series of a,a-bis(a1kylthio)oxime carbamates in this laboratory. Fridinger et at. (1970, 1971) have also reported on the synthesis and pesticidal activity of a series of a-mercaptal carbamoyloximes. Although we are reporting on some of the same compounds disclosed by them, the main thrust of their work concentrated on the cyclic compounds. Other workers (Fukuto et al., 1969; Payne et ul., 1966; Weiden et at., 1965) have reported on the pesticidal activity of substituted oxime carbamates and have attempted to correlate structure with biological activity. These workers also concluded that, like phenyl carbamates, oxime carbamates exert their pesticidal action by inhibition of acetylcholinesterase. Our work attempts t o correlate chemical structure with degree of cholinesterase inhibition and with insecticidal, miticidal, and nematicidal effectiveness.

Carbamates. METHOD A. Treatment of a n a,a-bis(alky1thio)oxime with alkyl isocyanate in the presence of triethylamine.

SYNTHESIS OF COMPOUNDS

METHODB. Treatment of an a,a-bis(alky1thio)oxime with sodium hydride followed by treatment with a dialkyl carbamoyl chloride.

Oximes. METHOD1 . Treatment of a n a-keto oxime with one equivalent of the dithiol or two equivalents of alkyl thiol in the presence of a n acid catalyst (Posner, 1899).

R1-C-C-R3

II

II I

+ RSH

O N

H+

I

RiX-H I

ll I

N OH

RS SR Ri-C-C-RI \ /

I1 I

N 0-C-NH-Ra

II

0

RS

SR

RS

1. NaH ~

7

RiX-C-R,

II

SR

\ /

R1-C-C-R3

/I

2. R4RsN-C-C1

N

N 0-C-N I

I

d

OH

"OH

/R4

I1

\R

0

METHOD2. Treatment of a n aldehyde thioketal with butyllithium, followed by treatment with dimethylformamide, water, and then hydroxylamine (Corey and Seebach, 1965). SR

(CHaCHz)zN

+ R4-N=C=O

R1-c-c-R~

Rl-C-C-Ra RI

-

SR

\ /

\ /

S

OH

RS

1. Butyllithium (CHa)zN-CHO CHa 3. Hz0

5

Sulfoxides. Treatment of the a,a-bis(alky1thio)oxime carbamate in aqueous acetic acid solution with hydrogen peroxide.

2.

RS

+ SR

I

I

SR

R Hz02

\ /

SR R1-C-CHO

SR

SR NHzOH

I I

R,X-CH=NOH

j

SR

Agricultural Research Laboratories, The Upjohn Co., Kalamazoo, Michigan 49001

Ri-C--C-R3 I/ N

R4

I

/

bC-N'

I/

0

\

R5

CHaCOzH/ H¶0

+O-S

I

SR \ / R1-CX-R

3

II N

I

R4

0-C-N

/

' b \ Rs

The compounds synthesized are shown in Table I. J . AGR. FOOD CHEM., VOL. 19, NO. 5 , 1971 865

Table I. cupBis(alky1thio)oxime Carbamates RQ Ro

k

Rc 0-cd I

a

Compd no. I I1 I11 IV V VI VI1 VI11 IX X XI XI1 XI11 XIV

R2 SCHs SCHa SCH3 SCHz-CHzS SCHz-CHzS SCHa SCH3 SCHa SCHa SCHz-CHz-CHzS SCHz-CHz-CHzS SCHz-CHz-CHzS SGH5 SC2Hs S-n-CaH7 S-n-CaH7 SCHs SCHa SCHa SCHa SCHa SCHa SCH3 SCHa SCH(CHa)-CH2S SCHz-CHg-CHzS

Rz

Ra CHa CsH6 H CH3 H H H H H H H H H

SCYS SCHa SCHa

xv

XVI XVII XVIII XIX

Pest Boll weevil House cricket Housefly Mexican bean beetle Southern armyworm Yellow fever mosquito Two-spotted spider mite Two-spotted spider mite Southern root-knot nematode d

SGHs

Table Stagea A N A L L L N,A N,A LA

a Stage: A = adult, N = nymph, L = larva. Plant infested 24 hr posttreatment.

b

H

x

Cholinesterase Assays. The molar concentration for 50 inhibition of bovine erythrocyte acetylcholinesterase (Nutritional Biochemicals Corp.) was determined by a procedure similar to that described by Robbins et al. (1958). The Iso values were obtained from duplicate assays by interpolation from a n eye-fitted line of the semilog plot of the inhibitor concentration us. percentage inhibition. Insecticide, Miticide, and Nematicide Assays. Compounds were dissolved in acetone and diluted with “wet water” [ 0 . 0 1 3 2 x v/v water solution of Tween 20 (Atlas Chemical Industries, Inc.)] for use in all tests except the residual contact house cricket test. I n this latter test acetone solutions of the chemical were placed o n glass surfaces and the acetone was allowed to evaporate. The 1000-ppm “wet water” suspensions were used t o prepare the desired concentrations for bioassay against the various pests. A synopsis of the test procedures is outlined in Table 11. The test organisms, randomly selected from a large population of mixed sexes, were encaged in proximity t o the treated environments for the entire holding period (see Results). No 5, 1971

mp, “C

Oil 145-146 64-66 107.5-108.5 117-119 74-76 Oil 99-102 58-68 48-50 65-67 71-72.5 73-75 52-54 Oil Oil 80-82 114-1 15 Oil

11. Synopsis of Pesticidal Assays Principal mode of contact Method of application Feeding Treated 10% sugar solution Residual contact Glass residue Feeding Treated 10% sugar solution Residual contact-feeding Leafb dip Residual contact-feeding Leaf* spray Contact Treated larval water Contact Spraybsc Feeding Systemicb’d Contact Soil incorporation

Lima bean, Phaseolus limensis var. Henderson bush.

BIOLOGICAL TESTS

866 J. AGR. FOOD CHEM., VOL. 19, NO.

CH3

H

4

0 SGHs

H H H H

Ra H H H H H H H H H H H H H H CHa CZH 6 H H

c

Rate 50 ppm 750 pg/ftz 25 P P ~ 50 P P ~ 1000 ppm 1 ppm 100 ppm 50 P P ~ 16#/acye

Plant infested 24 hr prior to treatment.

additional food was offered t o the test species, with the exception of the mosquitoes, which received the addition of dried yeast t o the larval water 24 hr posttreatment. The percentage of dead (including moribund) individuals was recorded after specified time intervals with the exception of the root-knot nematodes. I n the case of the nematicide test, tomato transplants set into the treated nematode-infested soil were excised and the roots examined for the degree of galling. Where applicable, results of replicated experiments are presented as averages of all replicates, corrected by use of Abbott’s formula (Finney, 1964). RESULTS AND DISCUSSION

Changing R Bfrom hydrogen t o methyl decreases pesticidal activity as seen when the activities of Compounds I11 us. I, V us. IV, and XI DS. XIX are compared (Table 111). Payne et ai. (1966) and Fridinger et ai. (1970) have made similar observations when comparing the activities of aldoximes DS. ketoximes. Even though compound I1 failed t o demonstrate activity against the test organisms at rates higher than indicated, it is a comparatively good inhibitor of AChE. Al-

Table 111. Bioactivity of Ketoxime and Aldoxime Carbamates Rz Rz 0

/I

\ /

C-C=N-O-C-NHCH3

/

I

CH3

Compd no. I I11 IT IV V XIX XI

Rz

Rz

SCH, SCHB SCH3 SCH3 SCH, SCH3 SCHP-CH~S SCHz-CHzS SCzHs SCzHs SCzHs SCPHS

R3

Percent mortality 2 days posttreatment HC HF MBB SAW YFM Mi-C

R3

BW

CH3