Plant protecting and regulating compositions – Plant growth regulating compositions – Organic active compound containing
Reexamination Certificate
2002-03-28
2003-11-11
Qazi, Sabiha (Department: 1616)
Plant protecting and regulating compositions
Plant growth regulating compositions
Organic active compound containing
C504S136000, C504S137000, C544S239000, C514S247000, C514S183000
Reexamination Certificate
active
06645917
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a composition for hybrid seed production. More particularly the present invention also relates- to a composition useful for improving female fertility and seed setting in plants. The composition of the present invention is useful for production of hybrid seed in crop plants such as wheat.
BACKGROUND OF THE INVENTION
Capability of certain classes of chemicals viz. pyridazines, 4-pyridionones, pyrrole carboxylates, 5-chlorocaboxylic acids to effect such changes is know in the literature. Certain compounds designated as DPX 3778, Hybrex, LY 195259, Mendok, RH 2956, RH 4667, RH 5148 and WL 84811 are few of the examples of such compounds. (Pickett A A 1993. In ‘
Advances in plant Breeding
’ 15, Paul Parey Scientific Publisher, Berlin, pp 122-132). However, these chemicals also affect female sterility resulting in lower seed setting and seed germination.
The prior art compositions/compounds suffer from several disadvantages in use such as resulting in some growth inhibition, severe plant damage, small seeds, inhibition of growth and flowering, leaf burn, shorter plant, etc. In view of the above limitations it is necessary to provide chemicals and their combinations, which may provide foolproof male sterility with better female fertility for commercial seed production of hybrid seed. Although the study and the research was carried out on wheat in the present description, the involved compositions are not only applicable to the wheat plant but are also to other angiosperm crops as rice, maize, jowar, bajra, etc.
Based on the mode of pollination, the crop plants are classified into three broad groups namely, self-pollinated, cross pollinated and often cross pollinated. Exploitation of heterosis through hybrid breeding is common in cross pollinated and often cross pollinated as their floral structure facilitate natural out crossing. Wheat is a self-pollinated cleistogamy flower wherein flower open only after anther had released their pollen load inside the floret. The success of hybrid breeding depends upon how economically hybrid seed can be produced specially in self-pollinated crops. The three plant breeding methodologies known to develop hybrids are genetic, cytoplasmic and cytoplasmic-genetic. The success story of hybrid rice is a suitable example for a cytoplasmic male sterility (CMS) System.
During the process of evolution the A, B and D genomes of Triticum spp and other related species had combined to form the present hexaploid wheat that man effectively domesticated and commercially grew for food as a cereal crop. These genomes have an ability to survive independently in nature. This hexaploid nature of wheat could be a probable reason that restricts the use of CMS system of hybrid seed production. The initiation of global efforts to use CMS system in early fifties using different sources of male sterility as a mode of hybrid wheat seed production, faced three main limitations viz. A. Instant ability of male sterile line over years; B. Lack of complete restoration; C. Limited use of parental lines because of the tedious and time consuming procedure to develop. A line (male sterile line); B line (maintainer) and identifying good R line (restorer).
Due to these difficulties, several organizations in the early 1970's shifted their efforts to the use of chemicals, which can act like gametocides or pollen suppressant. These chemicals were referred to as “Chemical Hybridizing Agent” (CHA) and a number of CHAs were evaluated. In last 15 years progress has been made for commercial exploitation of hybrid wheat through the use of CHAs (see table 1). Table 1 given below shows the results of investigations made using various chemicals as chemical hybridizing agents (CHA's).
TABLE 1
Chemicals investigated for use as CHA s in wheat
Chemicals
Sterility (optimum
Company
Hybridizing
treatment)
(where
Agents
Male
Female
Remarks
available)
Dalapon
Partial
Severe
Severe plant damage
Dow
Chemicals
DPX 3778
High
Sight
Shorter plant, leaf
El du Pont
burn, delayed flow-
de Nemours
ering, toxic residues
in seed
Estrone
Poor
Ovule
Plant damage
—
Ethephon
High
Significant
Height and seed size
Amchem
(Ethrel)
reduced, late tillers
Products
fertile, dose cv specific
increased plant height,
chlorosis risk
of damage
Gibberellic
Poor
Nil
Increased plant height,
—
acid
chlorosis
Hybrex
High
Slight
Risk of damage
Rohm and
Haas
LY 195259
High
Nil
Application time
Lilly
critical
Research
Maleic
Partial
Severe
Severe plant damage,
—
Hydrazide
late maturity
Mendok (FW
Poor
Significant
Severe plant damage,
Rohm and
450)
small seed
Haas
RH-531
High
Significant
Inhibit veg. Growth
Rohm and
and flowering
Haas
RH-532
High
Significant
Inhibit veg. Growth
Rohm and
and flowering
Haas
RH-2956
High
Slight
Some growth
Rohm and
inhibition
Haas
RH-4667
High
Slight
Some growth
Rohm and
inhibition
Haas
RH-5148
High
Slight
Risk of damage
Rohm and
Haas
WL 84811
Nearly
Very
Toxic residues in F1
Shell
com-
slight
seed
chemicals
plete
Since early eighties a number of CHA molecules were evaluated against wheat (see Table 1) that had variable effect on male and female sterility and some of them affected the plant morphology and caused seed shriveling.
These chemicals differ with respect of female fertility, duration and dose specificity, genotypic and tissue specificity, developmental stage, physiological state, chronic spray, fertility impairment, detrimental side effect and phyto-toxicity. (Mahajan V, Nagarajan S 1997. PINSA B64 No. 1 pp 51-58).
In spite of these difficulties a suitable CHA may have a public acceptance if it is an easy, economical and reliable method for inducing selective male sterility over diverse environments. The CHA can also become an effective tool for emasculation in a traditional breeding programme.
In 1997-98, both Ch 9701 and Ch9832 were evaluated over different genotypes (Mahajan V, Nagarajan S, Deshpande V H and Kelkar R G 2000
. Current Science
78 (3): 235-237). At a minimum effective dose for complete male sterility, the female sterility and seed shriveling was higher in CH9701 while seed setting was numerically higher in CH9832. The seed germination was comparable (Table 2).
TABLE 2
Performance of CHA exhibition complete male sterility at 7-8 mm of
spike length for important characters
Max.
seed
Fe-
shriv-
Chemical
male
eling
Germin-
Hybridizing
Effective
ster-
(Scale
Seed
ation
Agent
Variety
dose
ility
1-5)
setting
(%)
CH9701
WH542
250
90.7
2
56.7
85
PBW343
500
88.3
3
20.0
95
CH9832
WH542
500
10.7
2
65.5
65
PBW343
500
40.2
2
49.0
90
Source : Mahajan et. Al. 2000
Thus all previous research on CHA was not successful in identifying a combination of chemicals which may provide a functional hybrid seed production method in wheat with higher female fertility, seed setting, seed yields, seed viability and versatility over a range of genotypes and environments.
OBJECTS OF THE INVENTION
The main object of the present invention is to provide a novel composition for hybrid seed production.
Another object of the present invention is to provide a composition to improve female fertility.
Still another object of the present invention is to provide a composition useful for increasing seed setting.
Yet another object of the present invention is its effectiveness over a range of genotypes and environments.
SUMMARY OF THE INVENTION
Accordingly the present invention provides a composition for hybrid seed production, which comprises a synergistic mixture of potassium 1-[4-chlorophenyl]-1,4 dihydro-6-methyl-4-oxopyridazine-3-carboxylate of the formula 1
and potassium 1-[4-fluoro, 3-chlorophenyl]-1,4 dihydro6-methyl-4-oxopyridazine-3-carboxylate of the formula 2
In one embodiment of the present invention, the compounds of the formula 1 and 2 are taken in a combined dose of up to 1000 ppm along with a non-ionic surfacant.
In one embodiment of the invention the concentration of potassium 1-[4-chlorophenyl]-1,4 dihydro-6-methyl-4-oxopyridazine-3-carboxylate is in the range of from 1 ppm to 300ppm.
In another embodiment of the in
Bulbule Vivek Jagannathrao
Deshpande Vishnu Hari
Kelkar Ramesh Ganesh
LaHoti Rajgopal Jagannath
Mahajan Vinay
Council of Scientific and Industrial Research
Morgan & Finnegan , LLP
Qazi Sabiha
LandOfFree
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