WO2012087980A1 - Sandpaper mutants of bacillus and methods of their use to enhance plant growth, promote plant health and control diseases and pests - Google Patents
Sandpaper mutants of bacillus and methods of their use to enhance plant growth, promote plant health and control diseases and pests Download PDFInfo
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- WO2012087980A1 WO2012087980A1 PCT/US2011/065936 US2011065936W WO2012087980A1 WO 2012087980 A1 WO2012087980 A1 WO 2012087980A1 US 2011065936 W US2011065936 W US 2011065936W WO 2012087980 A1 WO2012087980 A1 WO 2012087980A1
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- 231100000765 toxin Toxicity 0.000 description 1
- 108700012359 toxins Proteins 0.000 description 1
- 239000011573 trace mineral Substances 0.000 description 1
- 235000013619 trace mineral Nutrition 0.000 description 1
- 230000005945 translocation Effects 0.000 description 1
- BAZVSMNPJJMILC-UHFFFAOYSA-N triadimenol Chemical compound C1=NC=NN1C(C(O)C(C)(C)C)OC1=CC=C(Cl)C=C1 BAZVSMNPJJMILC-UHFFFAOYSA-N 0.000 description 1
- 150000003852 triazoles Chemical class 0.000 description 1
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- IQGKIPDJXCAMSM-UHFFFAOYSA-N triazoxide Chemical compound N=1C2=CC=C(Cl)C=C2[N+]([O-])=NC=1N1C=CN=C1 IQGKIPDJXCAMSM-UHFFFAOYSA-N 0.000 description 1
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- HSMVPDGQOIQYSR-KGENOOAVSA-N triflumizole Chemical compound C1=CN=CN1C(/COCCC)=N/C1=CC=C(Cl)C=C1C(F)(F)F HSMVPDGQOIQYSR-KGENOOAVSA-N 0.000 description 1
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- OOLLAFOLCSJHRE-ZHAKMVSLSA-N ulipristal acetate Chemical compound C1=CC(N(C)C)=CC=C1[C@@H]1C2=C3CCC(=O)C=C3CC[C@H]2[C@H](CC[C@]2(OC(C)=O)C(C)=O)[C@]2(C)C1 OOLLAFOLCSJHRE-ZHAKMVSLSA-N 0.000 description 1
- JARYYMUOCXVXNK-CSLFJTBJSA-N validamycin A Chemical compound N([C@H]1C[C@@H]([C@H]([C@H](O)[C@H]1O)O[C@H]1[C@@H]([C@@H](O)[C@H](O)[C@@H](CO)O1)O)CO)[C@H]1C=C(CO)[C@@H](O)[C@H](O)[C@H]1O JARYYMUOCXVXNK-CSLFJTBJSA-N 0.000 description 1
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- 239000002699 waste material Substances 0.000 description 1
- 239000000080 wetting agent Substances 0.000 description 1
- 235000021119 whey protein Nutrition 0.000 description 1
- 239000002023 wood Substances 0.000 description 1
- 239000011701 zinc Substances 0.000 description 1
- 229910052725 zinc Inorganic materials 0.000 description 1
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Classifications
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01N—PRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
- A01N63/00—Biocides, pest repellants or attractants, or plant growth regulators containing microorganisms, viruses, microbial fungi, animals or substances produced by, or obtained from, microorganisms, viruses, microbial fungi or animals, e.g. enzymes or fermentates
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01N—PRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
- A01N63/00—Biocides, pest repellants or attractants, or plant growth regulators containing microorganisms, viruses, microbial fungi, animals or substances produced by, or obtained from, microorganisms, viruses, microbial fungi or animals, e.g. enzymes or fermentates
- A01N63/20—Bacteria; Substances produced thereby or obtained therefrom
- A01N63/22—Bacillus
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/195—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from bacteria
- C07K14/32—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from bacteria from Bacillus (G)
Definitions
- the present invention relates to the field of bacterial mutants and their ability to enhance plant growth, promote plant health and control plant diseases and pests.
- the Bacillus genus comprises numerous endospore-forming bacteria that have myriad uses in the agricultural and animal nutrition fields, among others.
- Several strains of Bacillus are currently marketed for use as plant growth promoters and/or biocontrol agents against insect pests and diseases (see, e.g., Masaaki Monkawa, "Beneficial Biofilm Formation by Industrial Bacteria Bacillus subtilis and Related Species," Journal of Bioscience and
- Bacillus subtilis is a Gram-positive soil bacterium, which is often found in the plant rhizosphere.
- B. subtilis like many species of bacteria, can exhibit two distinct modes of growth, a free-swimming, planklonic mode of growth and a sessile biofilm mode in which an aggregate of cells secrete an extracellular matrix to adhere to each other and/or to a surface (Branda, et al., "Fruiting Body Formation by Bacillus subtilis," Proc. Natl. Acad. Sci. USA (2001) 98: 11621-1 1626; Hamon and Lazazzera, "The Sporulation Transcription Factor SpoOA is Required for Biofilm Development in Bacillus subtilis " Mol. Microbiol.
- Biofilm morphology and chemical composition vary across species and strains. Mucoid colony morphology and production of ⁇ -polyglutamic acid occurring in wild Bacillus sub/His strains has been correlated with enhanced biofilm formation, while flat, dry colony morphology occurring in domestic (or lab) strains has been correlated with decreased biofilm formation. See Stanley, N. and Lazazzera, B. "Defining the Genetic Differences Between Wild and Domestic Strains of Bacillus sublilis that Affect Poly-v-DL-Glutamic Acid Production and Biofilm Formation," Molecular Microbiology (2005) 57(4): 1 143-1 158 at 1 145.
- the Branda paper ⁇ supra, 2001 described deficiencies in biofilms with non-mucoid colony morphology, such as flat, small, dry colonies, which grew laterally and eventually fused with each other, leading to small colonies lacking aerial structures.
- the Stanley paper described a hybrid Bacillus subtilis strain having a loss of function mutation in the swrA locus that formed flat, dry colonies and showed enhanced biofilm formation.
- the hybrid strain was a congression-made combination of a domestic strain with the DNA from a wild strain that is responsible for mucoid colony morphology.
- Applicants have found that wild Bacillus strains with reduction or loss of function mutations to the swrA locus produce flat, dry colonies that form robust biofilms and, further, that formulated fermentation products consisting of such cells enhance plant health, lead to more robust root colonization compared to strains containing the wild type swrA gene, and control plant diseases and pests, such as nematodes.
- compositions comprising a variant of spore- forming bacteria where the variant has a mutation in the swrA gene that results in impaired swarming ability and enhanced plant health promotion and that may also cause the following characteristics compared to a strain containing a vvildtype swrA gene: a sandpaper cell or colony morphology consisting of flat, dry, highly compacted, and very crispy cells or colonies; more robust root colonization; and/or formation of long chains of cells during early exponential phase in liquid culture.
- Such mutation is referred to herein as a swrA mutation and cells with such swrA mutation are swrA ' cells.
- the swrA ' cells comprise at least about 3.5% of the total cells in the composition and at least 70% of the swrA ' cells are spores.
- the present invention further provides such compositions wherein the swrA ' cells comprise at least 10% of the total cells in the composition, or comprise at least 50% of the total cells in the composition, or comprise 100% of the total cells in the composition.
- the present invention further provides such compositions wherein at least about 80%, at least about 85%, or at least about 90% of the swrA ' cells and/or of the total cells in the composition are spores.
- the spore-forming bacteria are from the genus Bacillus.
- Bacillus species are from a Bacillus species within the Bacillus sublilis clade (see Figure 6).
- the species is selected from the group consisting of /?, piimilus, B. alrophaeus, B. amyloliquefaciem, B. sublilis and B. lichenifonnis.
- the Bacillus species is Bacillus sublilis QST713.
- compositions comprising swrA ' cells, wherein the loss of swrA function can be the result of any mutation that disrupts, interferes with or otherwise adversely affects its function.
- mutations include but are not limited to at least one nucleic acid base pair change in a start codon for swrA, and/or at least one nucleic acid base pair deletion in swrA, and/or at least one nucleic acid base pair insertion in swrA, and/or disruption of a swrA promoter or other control element ofswrA, and/or any other genetic or genetic type event that causes loss of swrA function (e.g., transposons, over expression, dominant negative mutants, RNAi, antisense, knock-outs, knock-ins, etc.).
- the present invention involves uses of and compositions comprising spore- forming bacterial cells having a mutation in a swrA ortholog wherein the mutation reduces swarming ability of the bacterial cells in comparison to isogenic bacterial cells not having the mutation.
- the swarming ability is measured by growth on a non-liquid surface.
- the spore-forming bacterial cells having the mutation in the swrA ortholog may be from a Bacillus species within the Bacillus sublilis clade. In one embodiment, the spore- forming bacterial cells are wild. In another, the Bacillus species is selected from the group consisting of B. pumilus, B. alrophaeus, B. amyloliqiiefaciens, B. sublilis and B. lichenifonnis.
- the spore-forming bacterial cells having the mutation in the swrA ortholog have various characteristics compared to isogenic bacterial cells not having the mutation, including at least one of the following: (i) the formation of a more robust biofilm; (ii) a biofilm that is flat, dry and thick; and (iii) formation of long chains in liquid culture in response to shear forces (that create a highly turbulent environment).
- the more robust biofilm further comprises one or more of the following characteristics in comparison to isogenic cells not having the mutation: (i) vegetative cells having a diameter that is at least about 1.5 times greater, (ii) cells having an extra cell coat, (iii) a large white (electron transparent) region when visualized with a transmission electron microscope, (iv) the appearance of the biofilm of AQ30002 shown in Figures 12, 13 or 14, and (v) cells that form long chains in liquid culture.
- the swrA ortholog has at least about 90% identity to a swrA wildtype gene of the same Bacillus species as the bacterial cells comprising the mutation.
- the swrA ortholog has at least about 95% identity, at least about 96% identity, at least about 97% identity, at least about 98% identity, or at least about 99% identity to a swrA wildtype gene of the same Bacillus species as the bacterial cells having the mutation.
- the wildtype swrA gene with at least about 99% sequence identity to the swrA ortholo is from the same strain as the bacterial cells having the mutation.
- the swrA ortholog has at least about 90% identity to any one of the swrA nucleotide sequences provided in SEQ ID NOS. I and 5- 10.
- the mutation in the swrA ortholog is at a position corresponding to one or more of positions 26-34 of the swrA gene set forth as SEQ ID NO. 1 or at a position corresponding to one or more of positions 1-3 of the swrA gene set forth as SEQ ID NO. 1 .
- the mutation is an insertion or deletion.
- compositions of spore- forming bacterial cells described above comprise at least 3.5% of the total bacterial cells in the composition and/or at least about 70% of the spore-forming bacterial cells in the composition are spores.
- the invention encompasses compositions comprising spore-forming bacterial swrA ' cells, wherein the swrA ' cells comprise at least 3.5% of the total bacterial cells in the composition and/or wherein at least about 70% of the spore-forming bacterial cells are spores.
- swrA activity has been reduced by means other than mutation of the swrA gene.
- swrA activity may be reduced by various agents, including small molecules, drugs, chemicals, compounds, siRNA, ribozymes, antisense oligonucleotides, swrA inhibitory antibodies, swrA inhibitory peptides, aplamers or mirror image aptamers.
- the mutation in the swrA gene in the swrA ' cells is at a position corresponding to one or more of positions 26-34 of the swrA gene set forth as SEQ ID NO. 1 or at a position corresponding to one or more of positions 1 -3 of the swrA gene set forth as SEQ ID NO. 1.
- the mutation is an insertion or deletion.
- the swrA ' cells are the result of a knock-out of the swrA gene.
- the spore-forming bacterial cells of the present invention are Bacillus sublilis QST713 bacterial cells having a mutation in the swrA gene and compositions thereof.
- the Bacillus sublilis QST713 bacterial cells comprise at least one nucleic acid base pair change in a start codon and/or at least one nucleic acid base pair insertion or deletion in a swrA gene.
- the insertion or deletion in the swrA gene occurs at one or more of the base pairs at positions 26-34 of SEQ ID NO. I .
- the swrA ' cells of Bacillus subtilis QST713 are selected from the group consisting of the strain AQ30002 (aka QST30002) and the strain AQ30004 (aka QST30004), deposited as Accession Numbers NRRL B-50421 and NRRL B-50455, respectively.
- the Bacillus subtilis QST713 having the mutation in the swrA gene is wildtype for epsC, sfp and degQ.
- the Bacillus subtilis QST713 having the mutation is otherwise isogenic to Bacillus subtilis QST713.
- compositions of the Bacillus subtilis QST 13 cells having the mutation comprise at least about 3.5% of the total bacterial cells in the composition.
- compositions comprising one or more B. subtilis strains selected from the group consisting of AQ30002 (aka QST30002) and AQ30004 (aka QST30004), deposited as Accession Numbers NRRL B-50421 and NRRL B-50455, respectively.
- the spore-forming bacteria cells having the mutation in the swrA ortholog are from a Bacillus species within the Bacillus subtilis clade and comprise a wildtype sfp ortholog. In another embodiment, these bacterial cells further comprise a wildtype degQ ortholog and a wildtype epsC ortholog. In one aspect, the sfp ortholog, the degQ ortholog and the epsC ortholog each have at least about 90% sequence identity to a sfp gene, a degQ gene and a epsC gene, respectively, from any one of B. pumilus, B. atrophaeus, B. amyloliquefaciens, B. subtilis and B.
- the at least about 90% sequence identity is to the sfp gene, the degQ gene and the epsC gene of any one ⁇ ⁇ . subtilis strain 3610, B. amyloliquefaciens strain FZB42, B. pumilus SAFR-032, B. lichenforinis strain 14580, or B. atrophaeus strain 1942.
- the sfp ortholog has at least about 90% sequence identity to SEQ ID NO. 1 1
- the epsC ortholog has at least about 90% sequence identity to SEQ ID NO. 12
- the degQ ortholog has at least about 90% sequence identity to SEQ ID NO. 13.
- the sequence identity described in this paragraph is at least about 95%, at least about 96%, at least about 97%, at least about 98%, or at least about 99%.
- the present invention further provides any of the spore-forming bacteria or compositions of the present invention further comprising a formulation inert or other formulation ingredient, such as polysaccharides (starches, maltodextrins, methylcelluloses, proteins, such as whey protein, peptides, gums), sugars (lactose, trehalose, sucrose), lipids (lecithin, vegetable oils, mineral oils), salts (sodium chloride, calcium carbonate, sodium citrate), and silicates (clays, amorphous silica, fumed/precipitated silicas, silicate salts).
- a formulation inert or other formulation ingredient such as polysaccharides (starches, maltodextrins, methylcelluloses, proteins, such as whey protein, peptides, gums), sugars (lactose, trehalose, sucrose), lipids (lecithin, vegetable oils, mineral oils), salts (sodium chloride, calcium carbonate, sodium
- the compositions of the present invention comprise a carrier, such as water or a mineral or organic material such as peat that facilitates incorporation of the compositions into the soil.
- the carrier is a binder or sticker that facilitates adherence of the composition to the seed or root.
- the formulation ingredient is a colorant.
- the formulation ingredient is a preservative.
- the present invention further provides any of the compositions of the present invention further comprising at least one other active ingredient or agent in addition to the swrA ' cells.
- Such other active ingredients or agents can be a chemical or another strain of bacteria.
- suitable active ingredients or agents include but are not limited to an herbicide, a fungicide, a bactericide, an insecticide, a nematicide, a miticide, a plant growth regulator, a plant growth stimulant and a fertilizer.
- the present invention further provides compositions wherein the swrA ' cells comprise from about 1 x 10 2 cfu/g to about 1 x 10 l0 cfu g in the composition.
- the present invention further provides such compositions wherein the swrA ' cells comprise at least 1 x 10 6 cfu/g, or comprise at least 1 x 10 7 cfu/g, or comprise at least 1 x 10 s cfu/g, or comprise at least 1 x 10 9 cfu/g.
- the present invention includes fermentation products of spore- forming bacteria of the present invention and compositions comprising such fermentation products.
- these fermentation products include spore-forming bacterial cells, their metabolites and residual fermentation broth.
- spore-forming bacterial cells of the fermentation product are largely spores.
- the compositions comprising fermentation products further comprise formulation inerts and formulation ingredients, as described herein.
- the concentrated fermentation broth is washed, for example, via a diafiltration process, to remove residual fermentation broth and metabolites so that the fermentation product is largely spores.
- the present invention also provides methods of treating a plant to enhance plant health (such as by promoting plant health, enhancing resistance to abiotic stress, or improving plant vigor) and/or control a plant disease and/or control a plant pest, wherein the method comprises applying one or more of the compositions of the present invention or the spore-forming bacteria of the present invention to the plant, to a part of the plant and/or to the locus surrounding the plant, such as to a plant's growth media.
- the present invention further provides such methods wherein the compositions of the present invention are applied to the soil.
- the composition can be applied before, during or after the plant or plant part comes into contact with the soil.
- the methods of the present invention include but are not limited to applying the composition using an application method such as soil surface drench, shanking in, injection, chemigation or application in-furrow.
- the methods of the present invention can be used on any plant part.
- plant parts include but are not limited to the seed, root, corm, tuber, bulb, slip and rhizome.
- compositions and spore-forming bacteria of the present invention are useful to control plant parasitic nematodes, such as, for example, root-knot, cyst, lesion and ring nematodes, including Meloidogyne spp., Heterodera spp., Globodera spp., Fratyienchus spp. and Criconemella sp.
- the targets are root knot nematodes, such as M.
- symptoms and/or nematodes are reduced by at least about 5%, at least about 10%, at least about 20%, at least about, 30%, at least about 40%, at least about 50%, at least about 60%, at least about 70%, at least about 80%, or at least about 90%.
- the uses, methods, spore-forming bacteria having a mutation in the swrA ortholog, and compositions described herein increase crop yield by about 10% to about 20%, about 10% to about 30%, about 10% to about 40%, about 10% to about 90%, about 20% to about 80%, about 30% to about 70%, about 40% to about 60%, or about 5% or more, about 10% or more, about 20% or more, about 30% or more, about 40% or more, about 50% or more, about 60% or more, about 70% or more, about 80% or more, or about 90% or more compared to an untreated plant, crop, fruit, or vegetable.
- the methods and compositions described herein increase crop yield by about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60% about 70%, about 80%, or about 90% compared to an untreated plant, crop, fruit, or vegetable.
- compositions of the present invention include but are not limited to the following monocots and dicots: bulb vegetables; cereal grains (such as wheat, barley, rice); corn (maize), citrus fruits (such as grapefruit, lemon, and orange); cotton and other fiber crops; curcurbits; fruiting vegetables; leafy vegetables (such as celery, head and leaf lettuce, and spinach); legumes (such as soybeans, green beans, chick peas, lentils); oil seed crops; peanut; pome fruit (such as apple and pear); stone fruits (such as almond, pecan, and walnut); root vegetables; tuber vegetables; corm vegetables; tobacco, strawberry and other berries; cole crops (such as broccoli, cabbage); grape; plants used for biomass production (such as miscanthus, bamboo), pineapple; and flowering plants, bedding plants, and ornamentals (such as fern and hosta).
- Compositions of the present invention are also used to treat perennial plants, including plantation crops such as banana and coffee and those present in forests, parks or landscaping.
- compositions of the present invention are applied at a rate of about 1 x 10 2 to about 1 x 10 9 cfu/seed, depending on the size of the seed. In some embodiments, the application rate is 1 x 10 3 to about 1 x 10 7 cfu/seed.
- compositions and spore-forming bacterial cells of the present invention can be applied as a soil surface drench, shanked-in, injected and/or applied in-furrovv or by mixture with irrigation water.
- the rate of application for drench soil treatments which may be applied at planting, during or after seeding, or after transplanting and at any stage of plant growth, is about 4 x 10" to about 8 x 10 12 cfu per acre. In some embodiments, the rate of application is about 1 x 10 12 to about 6 x 10 12 cfu per acre.
- the rate of application for in-furrow treatments, applied at planting is about 2.5 x 10 10 to about 5 x lO 11 cfu per 1000 row feet. In some embodiments, the rate of application is about 6 x 10 10 to about 4 x 10 1 1 cfu per 1000 row feet.
- Those of skill in the art will understand how to adjust rates for broadcast treatmenls (where applications are at a lower rate but made more often) and other less common soil treatments.
- compositions and spore-forming bacterial cells of the present invention may be mixed with other chemical and non-chemical additives, adjuvants and/or treatmenls, wherein such treatments include but are not limited to chemical and non-chemical fungicides, insecticides, miticides, nematicides, fertilizers, nutrients, minerals, auxins, growth stimulants and the like.
- the present invention provides a substantially pure culture and/or a biologically pure culture of a sandpaper cell isolated from a mixture of different cell types.
- the invention provides such substantially pure cultures and/or biologically pure cultures wherein the mixture of different cell types is QST713, deposited as NRRL Accession No.
- the present invention provides substantially pure cultures and/or biologically pure cultures of ?, subtilis strain AQ30002 (aka QST30002) or AQ30004 (aka QST30004), deposited as Accession Nos. NRRL B-50421 and NRRL B-50455, respectively.
- the present invention provides substantially pure cultures and/or biologically pure cultures of a B. subtilis strain having all of the physiological and morphological ⁇ characteristics of B. subtilis strain AQ30002 (aka QST30002) or AQ30004 (aka QST30004), deposited as Accession Nos. NRRL B-50421 and NRRL B-50455, respectively.
- the present invention also provides progeny of substantially pure cultures and/or biologically pure cultures of any of the cultures of the present invention, wherein the culture has all of the physiological and morphological characteristics of B. subtilis strain AQ30002 (aka QST30002) or AQ30004 (aka QST30004), deposited as Accession Nos. NRRL B-50421 and NRRL B-50455, respectively.
- compositions comprising a substantially pure culture and/or a biologically pure culture of one or more of the swrA ' cells of the present invention.
- Figure 1 shows a comparison of colony morphologies in QST713 wild type and QST713 sandpaper variants grown on nutrient agar plates. In contrast to the wild type colonies, colony morphologies of sandpaper variants are highly compacted and highly hydrophobic.
- Figure 2 shows images of AQ30002 swrA ' and QST713 wild type swrA * cells during exponential growth phase in liquid culture.
- Figure 3 shows images of AQ30002 swrA ' ("30002") and QST713 wild type swrA + cells ("713") in liquid culture subject to shear forces.
- the top images show cell growth without a pipet tip inserted into the culture medium at 40x magnification, while the bottom images show cell growth with a pipet tip inserted into the culture medium at lOx magnification.
- Figure 4 shows quantification of sandpaper colonies in representative commercial batches of SEREN ADE ® ASO.
- Figure 5A shows the alignment of various swrA genomic DNA encompassing the predicted swrA transcript.
- Bsub_168 B. subtilis strain 168;
- Bsub : _3610 B. subtilis strain 3610;
- QST713 QST713 wild type;
- AQ30002 and AQ30004 representative strains of the present invention;
- Bamy_FZB42 B. amyloliquefaciens strain FZB42;
- Bpum_SAFR-032 B. ptimihis strain SAFR-032;
- Blic_14580 B. lich niformis strain 14580.
- Figure 6 shows a phylogenetic tree of species within the Bacillus subtilis clade (i.e., B. subtilis and all near relatives as assessed by 16S rDNA comparison) with more distantly related species included to root the tree.
- Species for which the complete genome sequence is available are marked with asterisks.
- a single asterisk (“*") further indicates that the species lacks an ortholog otswrA, while species marked with a double asterisk (“**”) contain a sw A ortholog.
- the other unmarked species within the B. sublilis clade are presumed to have swrA orthologs based on their close phylogenetic relationship, but genomic sequence data for these species is currently not publicly available.
- Figure 7 shows images of 0.7% LB-agar swarming assay plates of QST713 swrA * ("QST713"), AQ30002 swrA ' (“AQ30002”) and various constructs based on these strains.
- Figure 8 shows average root colonization ratings for QST713 swrA*
- Figure 9 shows root biofilm images captured with digital light microscopy showing the similarity of biofilms between AQ30002_endoPro_swrA_ICE (complemented strain) and QST713 swrA* ("QST713") and the similarity between AQ30002_pPen_swrA_ICE (partial complementation) and AQ30002 swrA ' ("AQ30002").
- Figure 10 represents results of growth of two replicates each of QST713 wild type swrA * and AQ30002 swrA ' sandpaper types in pork-stock medium at 30 °C.
- Figure 11 represents results of pellicle robustness assay of two replicates each of QST713 wild type swrA * ("713 wt") and AQ30002 swrA ' ("AQ30002") cultures.
- Figure 12 shows images of root colonization with Bacillus subtilis AQ30002 swrA ("AQ30002”) and QST713 wild type swrA* ("QST713 wt").
- Figure 13 shows scanning electron microscope (SEM) images of Bacillus subtilis QST713 wild type swrA * ("QST713”) and AQ30002 swrA ' (“AQ30002”) biofilms coating root surfaces.
- Figure 14 shows light microscopy images of thin and thick sections of roots treated with water, Bacillus sublilis QST713 wild type swrA* ("QST71 ”) and AQ30002 swrA ' ("30002").
- Figure 15 represents results of a greenhouse study to measure plant growth promotion in corn treated with either AQ30002 swrA ' ("AQ30002"), QST713 ("QST713", which is a mixture of wild type swrA* and sandpaper swrA ' cells in ratios as found in the SERENADE* product, see, e.g., Example 3 and Figure 4) or other Bacillus strains. Shown are corn plants 2 weeks after seed treatment with application rates normalized to 64 oz acre with equivalent CFU rates used for experimental products.
- Figure 16 represents results of greenhouse study to measure plant growth promotion in wheat treated with either AQ30002 swrA ' ("AQ30002"), QST713 ( "QST713", which is a mixture of wild type i'w/v4 + and sandpaper swrA ' cells in ratios as found in the SERENADE ® product, see, e.g., Example 3 and Figure 4) or other Bacillus strains. Shown are wheat plants 2 weeks after seed treatment which consisted of a seed drench with application rates normalized to 64 oz/acre with equivalent CFU rates used for experimental products.
- FIG. 17 represents results of greenhouse study to measure plant growth promotion in tomatoes treated with either AQ30002 swrA ' ("AQ30002"), QST713 ("QST713", which is a mixture of wild type swrA + and sandpaper swrA ' cells in ratios as found in the SERENADE® product, see, e.g., Example 3 and Figure 4) or other Bacillus strains produced using a soy-based medium. Shown are tomato plants 2 weeks after seed treatment which consisted of a seed drench with application rales normalized to 64 oz acre with equivalent CFU rates used for experimental products.
- FIG. 18 represents results of a greenhouse study to measure dry weights of roots and shoots of corn treated with either AQ30002 ("AQ30002"), QST713 ("QST713", which is a mixture of wild type swrA* and sandpaper swrA ' cells in ratios as found in the SERENADE* product, see, e.g., Example 3 and Figure 4) or other Bacillus strains produced using a soy-based medium.
- Figure 19 represents results of a greenhouse study to measure dry weights of roots and shoots of wheat treated with either AQ30002 ("AQ30002"), QST7 I 3 ("QST71 3", which is a mixture of wild type swrA* and sandpaper swrA ' cells in ratios as found in the SERENADE* product, see, e.g., Example 3 and Figure 4) or other Bacillus strains produced using a soy-based medium.
- Figure 20 represents results of a greenhouse study to measure dry weights of roots and shoots of tomato treated with either AQ30002 ("AQ30002"), QST713 ("QST713", which is a mixture of wild type swrA* and sandpaper swrA ' cells in ratios as found in the SERENADE® product, see, e.g., Example 3 and Figure 4) or other Bacillus strains produced using a soy-based medium.
- Figure 22 represents percent lodging (breakage of the stalk below the ear) of a field study to measure corn plants treated with Bacillus sublilis strains QST713 (a mixture of wild type swrA * and sandpaper swrA ' cells in ratios as found in the SERENADE® product, see.
- Figure 23 shows an image of soybean roots from plants treated with AQ30002 swrA ' ("QRD 154") and bacterial inoculant in furrow at planting.
- Figure 24 shows an image of soybean roots from an untreated plant.
- Figure 25 represents results of field study to measure control of corn Pythium stalk rot by Bacillus siibiilis strains QST713 (a mixture of wild type swrA * and sandpaper swrA ' cells in ratios as found in the SERENADE ® product, see, e.g., Example 3 and Figure 4)
- Figure 26 represents results of a greenhouse study to compare the activity of QST713 (a mixture of wild type swrA* and sandpaper swrA ' cells in ratios as found in the SERENADE ® product, see, e.g., Example 3 and Figure 4) ("QST713") and AQ30002 swrA ' ("AQ30002") against damping-off caused by P)>fhiu ultinnim and Rhizoclonia solani. Each bar represents the average of four measurements with the error bars indicating the standard deviations.
- QST713 a mixture of wild type swrA* and sandpaper swrA ' cells in ratios as found in the SERENADE ® product, see, e.g., Example 3 and Figure 4
- QST713 AQ30002 swrA '
- Each bar represents the average of four measurements with the error bars indicating the standard deviations.
- Figure 27 provides a time course showing activity of QST713 (a mixture of wild type -SH?vi + and sandpaper swrA ' cells in ratios as found in the SERENADE* product, see, e.g., Example 3 and Figure 4) ("QST713") and AQ30002 swrA ' ("AQ30002”) againsl pepper wilt caused by Phyiophthora capsici over an 8-day period in a greenhouse assay. Note that the uninfested control (“UIC”) and chemical fungicide curves overlap.
- UIC uninfested control
- chemical fungicide curves overlap.
- Figure 28 shows tomato plants treated with increasing doses of AQ30002 swrA ' ("AQ30002") and QST713 ( a mixture of wild type swrA * and sandpaper swrA ' cells in ratios as found in the SERENADE ® product, see, e.g., Example 3 and Figure 4) ("QST713").
- Figure 29 is a comparison of individual leaves of tomato plants treated with increasing doses of AQ300O2 swrA ' ("AQ3OO02") and QST713 (a mixture of wild type swrA * and sandpaper swrA ' cells in ratios as found in the SERENADE ® product, see, e.g., Example 3 and Figure 4) ("QST713").
- Figure 30 represents the chlorophyll content in tomato plants treated with increasing doses of AQ30002 swrA ' (“AQ30002") and QST713 (a mixture of wild type swrA * and sandpaper swrA ' cells in ratios as found in the SERENADE product, see, e.g., Example 3 and Figure 4) ("QST713").
- Figure 31 represents average leaf surface area (of five replications) of plants treated with 3610WT and 36 lOswrA ' (designated as 36 ⁇ 0swrA in the graph).
- Figure 32 represents chlorophyll readings of plants treated with 3610WT and
- Figure 33 represents activity of 3610WT and 36 ⁇ swrA ' (designated as 3 10swrA in the graph) against Phylophlora capsici of pepper.
- Figure 34 shows the effect of AQ30002 swrA ' ("AQ30002") whole broth treatment on galling of roots infested with root knot nematodes.
- Figure 35 shows the effect of treatment with AQ30002 swrA ' ("AQ30002") at various rates on seedlings infested with root knot nematodes. Specifically, results show extent of root galling and effects on nematode penetration and development.
- Figure 36 represents root knot nematode eggs per plant treated with various batches of AQ30002 swrA ' ("AQ30002") as compared to untreated plants (designated as UTC in the figure).
- the SERENADE ® product (U.S. EPA Registration No. 69592-12) contains a unique, patented strain of Bacillus sublilis (strain QST713) and many different lipopeptides that work synergistically to destroy disease pathogens and provide superior antimicrobial activity.
- the SERENADE* product is used to protect plants such as vegetables, fruit, nut and vine crops against diseases such as Fire Blight, Boirytis, Sour Rot, Rust, Sclerolinia, Powdery Mildew, Bacterial Spot and White Mold.
- the SERENADE* products are available as either liquid or dry formulations which can be applied as a foliar and/or soil treatment. Copies of U.S.
- SERENADE ® products including SERENADE* ASO, SERENADE ® MAX, and SERENADE SOIL, are publicly available through National Pesticide Information Retrieval System's (NPIRS®) USEPA/OPP Pesticide Product Label System (PPLS).
- NIRS® National Pesticide Information Retrieval System's
- PPLS Personal Product Label System
- SERENADE ® ASO (Aqueous Suspension-Organic) contains 1 .34% of dried QST7 I 3 as an active ingredient and 98.66% of other ingredients.
- SERENADE ® ASO is formulated to contain a minimum of 1 x 10 9 cfu/g of QST713 while the maximum amount of QST713 has been determined to be 3.3 x lO 10 cfu/g. Alternate commercial names for
- SERENADE® ASO include SERENADE® BIOFUNGICIDE, SERENADE® SOIL and
- SERENADE® GARDEN DISEASE For further information, see the U.S. EPA Master Labels for SERENADE ® ASO dated January 4, 2010, and SERENADE ® SOIL, each of which is incorporated by reference herein in its entirety.
- SERENADE® MAX contains 14.6% of dried QST713 as an active ingredient and 85.4% of other ingredients.
- SERENADE"* M AX is formulated to contain a minimum of 7.3 x 10 9 cfu g of QST713 while the maximum amount of QST7 I 3 has been determined to be 7.9 x 10 10 cfu/g.
- U.S. EPA Master Label for SERENADE* MAX which is incorporated by reference herein in its entirety.
- Bacillus subtilis QST713 has been deposited with the NRRL on May 7, 1997 under the provisions of the Budapest Treaty on the International Recognition of the Deposit of
- subtilis 168 are 85% or greater identical to proteins in QST713.
- a pesticidal product based on B. subtilis strain FZB24 which is as closely related to QST 713 as FZB42, is classified in documents of the U.S. EPA as B. subtilis var. amyloliquefaciens. Due to these complexities in nomenclature, this particular Bacillus species is variously designated, depending on the document, as B. subtilis, B. amyloliquefaciens, and B. subtilis var.
- Sandpaper cells form colonies on nutrient agar that morphologically and physiologically appear highly compacted, hydrophobic, flat, dry, and very "crispy" and are very hard to remove from the agar. Cell adherence may be observed qualitatively or may be measured by the crystal violet staining described in Stanley, et al., supra.
- sandpaper cells form dense, compact biofilms (or more robust biofilms) on surfaces such as roots, as shown in the images or 30002-treated roots in Figures 12, 13 and 14.
- the sandpaper cells have enhanced pellicle robustness, as may be tested as described in Example 8.
- sandpaper cells form long chains of cells in addition to some single cells and shorter chains in liquid culture during early exponential phase, as shown in Figure 2, but do not clump or form biofilms in liquid culture.
- sandpaper cells show enhanced biofilm development, starting to form biofilms in response to shear forces even in liquid culture.
- sandpaper cells have an extra cell coat, as described in Example 9 and shown in the image of 30002-colonized roots in Figure 14.
- observations are based on comparisons to isogenic cells that are wildtype for the swrA gene.
- the lerm "isogenic" as used herein refers to any two cells or individuals (e.g., strains) having the same genotype.
- QST713 as found in the SERENADE product (see, e.g., Example 1, Figure 1 and Figure 2) or as found in QST7 I 3 cells grown in a bioreactor consists of a mixed population of wild type cells and sandpaper cells at the same or similar ratios found in SERENADE ® (see, e.g., Example 3 and Figure 4).
- Swarming motility is an active mechanism that enables bacteria to travel rapidly and en masse atop solid surfaces (J. Henrichsen, "Bacterial Surface Translocation: A Survey and a Classification,” Bacteriol. Rev. (1972) 36:478-503).
- a number of different genes and operons have been associated with the ability to swarm in Bacillus.
- Kearns, et al. (“Genes Governing Swarming in Bacillus subtilis and Evidence for a Phase Variation Mechanism Controlling Surface Motility," Molecular Microbiology (2004) 52(2): 357-369) discovered that laboratory strain 168 and related laboratory strain PY79 of B.
- subtilis each have a frameshift mutation in a gene that they designated swrA that leads to impairment in swarming motility.
- Alternative names for swrA in the scientific literature include vzd and swrAA.
- the swrA mutation i.e., swrA '
- the swrA mutation in these two laboratory strains is an insertion of an A:T base pair in a homopolymeric stretch of eight A:T base pairs at nucleotide 34 (all numbering of swrA
- nucleotide sequences is wilh respect to our numbering in Figure 5). This insertion is predicted to disrupt gene function by causing a frame shift mutation and truncated protein.
- the wild-type (functional; i.e., swrA + ) sequence (i.e., without the insertion) was found in the undomesticated strain 3610 and in strains that had regained the capacity to swarm. Applicants established that the sandpaper cells of QST713 have a mutation in the swrA gene, as discussed in detail in
- Example 5 These swrA ' cells have impaired swarming ability. Surprisingly, when applied to plants or soil, they enhance plant health.
- wild as used herein to describe bacterial strains, refers to strains that have been isolated from nature and that have not been actively selected for easy laboratory manipulation.
- the McLoon paper describes experiments conducted to repair the biofilm formation and swarming abilities of strain 168. First the sfp mutation was repaired, then the epsC mutation, then the swrA mutation and then the degQ mutation.
- McLoon, et al. state on page 2032, "We conclude that a strain carrying wild-type alleles of sfp, epsC and swrA is more robust in biofilm formation than a corresponding stain that is mutant for swrA and hence that swrA also contributes to robust biofilm formation.”
- a strain that lacks swrA function forms a more robust biofilm than the parental strain having a wildtype swrA, in contrast to the finding in McLoon.
- McLoon, et al. do not describe a cell in which the only mutant biofilm forming gene is swrA, and, therefore, do not describe the enhanced biofilm phenotype described herein.
- Wild type refers to the phenotype of the typical form of a species as it occurs in'nature and/or as it occurs in a known isolated form which has been designated as the "wild type.”
- Synonyms for "wild type” recognized herein include “wildtype,” “wild-type,” “+” and “wt”.
- the wild type is generally conceptualized as a product of the standard, "normal” allele of a specific gene(s) at one or more loci, in contrast to that produced by a non-standard, "mutant” or “variant” allele.
- the most prevalent allele i.e., the one with the highest gene frequency
- Bacillus strain or isolate is the one deemed as the wild type.
- QST71 3 wild type or "QST713 wild type swrA ' " and synonyms thereof (e.g., “QST713 swrA + , "QST wildtype,” “QST713 wt,” etc.) refer to B. subtilis QST713 with a functional swrA gene (i.e., swrA * ) that is able to express the encoded swrA protein.
- swrA * a functional swrA gene
- Wildtype QST713 is also wildtype (i.e., bears functional copies) for other genes identified in the literature as related to biofilm formation: epsC, degQ, and sfp.
- SEQ ID NO. 1 1 is the nucleotide sequence for the sfp gene in wildtype QST713.
- SEQ ID NO. 12 is the nucleotide sequence for the epsC gene in wildtype QST713.
- SEQ ID NO. 13 is the nucleotide sequence for the degQ gene in wildtype QST713.
- microorganisms and particular strains described herein are all separated from nature and grown under arti ficial conditions, such as in cultures or through scaled-up manufacturing processes, such as fermentation, described herein.
- sequence listing provided with this application provides sequences for various Bacillus species and strains, as also shown in Figures 5A, 5B and 5C. Table 1 below correlates SEQ ID NOS. with strains. All sequences are nucleotide sequences, except SEQ ID NO. 2, which is an amino acid sequence. Table 1
- the present invention relates to spore-forming bacteria having a swrA gene and, more particularly, to variants of such bacteria having one or more mutations in the swrA gene that result in a non-functional swrA gene that is unable to express the encoded swrA protein and/or unable to encode a functional swrA protein, wherein such mutation and variants with such mutation are referred to herein as swrA ' .
- the present invention also encompasses spore-forming bacteria wherein swrA activity has been reduced by means other than mutation of the swrA gene, such as inhibiting swrA activity at other points in the progression from activation of transcription of ihe swrA gene, transcription of the swrA gene, post transcriptional message processing, translation of swrA mRNA(s), post translational protein processing, to actual protein activity.
- any agent or system capable of inhibiting swrA activity is contemplated by this disclosure, including small molecules, drugs, chemicals, compounds, siRNA, ribozymes, antisense oligonucleotides, swrA inhibitory antibodies, swrA inhibitory peptides, dominant negative mutants, aptamers or mirror image aptamers.
- Cells in which swrA activity has been reduced by means other than mutation of the swrA gene are also referred to as swrA ' .
- the swrA ' cells of the present invention have impaired swarming ability and enhanced ability to improve plant health compared to cells with a wildtype swrA gene.
- swrA ' cells lose all or substantially all swarming ability.
- swarming ability is reduced compared to swarming ability in isogenic bacterial cells not having a mutation in the swrA ortholog.
- swarming ability is reduced by at least about 20%, by at least about 30%, by at least about 40%, by at least about 50%, by at least about 60%, by at least about 70%, by at least about 80%, or by at least about 90%.
- Swarming ability may be determined by the method described in Example 7 and compared quantitatively by measuring the diameter of bacterial growth on a centrally-inoculated "swarm agar" plate. See Figure 7.
- swrA ' cells have one or more of the following characteristics compared to cells with a wildtype swrA gene: sandpaper cell or colony morphology, as described above; formation of dense, compact, adherent biofilms on surfaces such as roots; and formation of some long chains of cell during early exponential phase in liquid culture with a lack of clumping or biofilm formation, which demonstrates an ability to respond to environmental signals (i.e., exposure to solid surfaces) in forming biofilms.
- the swrA ' cells form a dense, compact biofilm on surfaces such as oots and have enhanced adherence to non-liquid surfaces such as roots, which is referred to herein as a "more robust biofilm.”
- the non-liquid surface is a solid surface; in others it is a semisolid surface. Relative adherence to roots can be analyzed by a lack of biofilm disruption when roots are grown in agar, removed from the agar and visualized by light microscopy, as described in Example 9.
- the more robust biofilm comprises cells having an extra cell coat and/or a large white (electron transparent) region when visualized with a transmission electron microscope. See images of 30002 in Figure 14.
- the average diameter of cells in the more robust biofilm is at least about 1.5 times greater or at least about 2 limes greater than the average diameter of cells not having the swrA mutation. See images of 30002 in Figure 14.
- cell morphology of biofilm formed on non-liquid surfaces, such as roots, is analyzed by the method described in Example 9.
- swrA ' cells may also have enhanced biofilm development when exposed to shear forces in liquid culture. Such shear forces are described in Example 1.
- the appropriate bacterial cells to use as control cells in comparison to the characteristics of the swrA ' bacterial cells may vary. For example, in one embodiment the comparisons of the above properties are made between bacterial cells having the mutation and isogenic bacterial cells not having the mutation. In another embodiment, the comparison is made between bacterial cells having the mutation and badterial cells of the same species not having the mutation that also comprise the wildtype alleles of the biofilm-forming genes sfp, epsC and degQ.
- these swrA ' spore-forming bacteria are of the family BaciUaceae. In still other embodiments, they are from the genus Bacillus. In such embodiment, spore-forming bacterial cells or the Bacillus with the swrA mutation may (i) be within the
- Bacillus subiilis clade as defined below, (ii) have one or more mutations in a swrA ortholog and (iii) have impaired swarming ability and enhanced plant health improvement capability and, optionally, one or more of the other characteristics described in the foregoing paragraph.
- the term "Bacillus subiilis clade,” as used herein, is partially described in Figure 6 and includes the species that have been fully sequenced and determined as likely to have a swrA ortholog and those species for which genomic sequence data is not currently available but which are presumed to have a swrA ortholog based on their close phylogenetic relationships.
- the term “Bacillus sublilis clade” encompasses those Bacillus species not identified herein that contain a swrA ortholog by analyses well known to those of skill in the art, including the reciprocal best BLAST hit method.
- Homologous sequences are orthologous if they were separated by a speciation event: when a species diverges into two separate species, the divergent copies of a single gene in the resulting species are said to be orthologous.
- Orthologs are genes in different species that are similar to each other because they originated by vertical descent from a single gene of the last common ancestor. The strongest evidence that two similar genes are orthologous is the result of a phylogenetic analysis of the gene lineage. Genes that are found within one clade are orthologs, and comprise an orthologous group of genes descended from a common ancestor. Orthologs often, but not always, have the same function.
- the reciprocal best BLAST hit method is the most frequently used strategy to identify potential orthologous pairs. This method assumes that if two similar proteins from two species reciprocally produce the best BLAST hit in each other's proteome, then they are an orthologous pair. See Rivera, M.C., et al., "Genomic Evidence for Two Functionally Distinct Gene Classes," Proc. Natl. Acad. Sci. USA (95): 6239-44 (May 1 98). For example, Applicants' cross-species swrA pair analysis revealed that swrA in B.
- B. amyloliquefaciens B. licheniformis, B. atrophaeus and B. pumilus produced the reciprocal best BLAST hit, even though the global percent identity of the swrA protein between two species, B. amyloliquefaciens and B. pumilus, was as low as 70%.
- species in the Bacillus sublilis clade include but are not limited to B. pumilus, B. atrophaeus, B. amyloliquefaciens, B. sublilis and B. licheniformis, B. aerophilus, B. siralosphericus, B. safensis, B. altitudimts, B. vallismorlis, B. halololerans, B. mojavensis, B. sonorensis, B. aerius and (ii) variants and strains of Bacillus sublilis QST713 wild type swrA + with one or more mutations in the swrA gene.
- the swrA mutations of the present invention include but are not limited to one or more nucleic acid base pair insertions, one or more nucleic acid base pair deletions, one or more nucleic acid changes, including start codon changes, one or more transposon insertions, knockdowns, and/or knock-outs of a wildtype swrA gene.
- the gene includes regulatory regions, such as the promoter, transcribed regions and other functional sequence regions.
- Populations of spore-forming bacteria may be screened for naturally occurring cells having a mutation in the swrA ortholog, as described in Example 24.
- a number of genetics and molecular biology techniques can be utilized to decrease the expression of swrA at the transcriptional and translational levels to produce swrA ' cells having reduced swarming ability and robust biofilm formation.
- such swrA ⁇ cells may have one or more of the other properties (some chaining but no clumping or biofilm formation in liquid culture and altered cell morphology in root biofilms) described above.
- Antisense R A, RNAi and ribozymes can be engineered and introduced into the cell to decrease the expression of swrA or other genes that act as positive regulators, such as sigmaD and sigmaA. These transcription factors are known to recognize and directly bind to the swrA promoters (Calvio, et al., "Autoregulalion of swrAA and Motility in Bacillus siibiilis, " Journal of Bacteriology (2008) 190:5720-5728). Negative regulators of swrA can also be exploited to decrease swrA expression.
- FlgM the sigmaD-specific anti-sigma factor
- Fredrick and Helmann “FlgM is a primary regulator of sigmaD activity, and its absence restores motility to a sinR mutant," Journal of Bacteriology ( 1996) 178:7010-7013
- Another strategy is to use antimorphic mutation or dominant negative mutation. Because swrA might function as a dimer or a mullimer (Dan earns, personal communication, 201 1), a heteromeric swrA consisting of mutated and vildtype swrA units would no longer be functional. Examples of genetic engineering techniques used to decrease expression of swrA are set forth in Example 25.
- position when used in accordance with the present invention means the position of a nucleotide within a nucleic acid sequence or an amino acid within an amino acid sequence depicted herein.
- corresponding is used herein to indicate that a position is not limited to being determined by the number of the preceding nucleotides or amino acids.
- the position of a given nucleotide in accordance with the present invention which may be deleted may vary due to deletions or additional nucleotides elsewhere in a swrA gene such as in the 5 '-untranslated region (UTR) including the promoter and/or any other regulatory sequences or gene.
- UTR 5 '-untranslated region
- corresponding position or "a position corresponding to" a specific position of a nucleotide sequence or amino acid sequence refers to a position which, when a sequence in question is aligned with, for example, the nucleotide sequence of SEQ ID NO. 1 or the amino acid sequence of SEQ ID NO. 2 (e.g., the reference sequence) by standard methods, exhibits significant homology to the indicated position or, sometimes, to portions of the nucleotide sequence of SEQ ID NO. 1 or to the amino acid sequence of SEQ ID NO. 2.
- Different species of, for example, Bacillus while being similar in the nucleotide sequence of the swrA gene and/or the swrA protein, are not identical to the reference sequence and, in particular, may contain different, fewer or more nucleotides or amino acids than the reference sequence.
- the swrA mutation in a variant spore-forming bacteria occurs at a nucleotide position that causes an amino acid change corresponding to at least one of the following conserved positions of the protein set forth in SEQ ID NO. 2: positions 1 - 17, positions 19-20, position 22, positions 25-29, positions 31 -33, positions 36-39, positions 41 -48, positions 50-51 , position 53, position 56, position 58, position 60, positions, 61, positions 64-65, positions 67-69, position 71-86, position 88, position 95, position 97, positions 99-1 13 and position 1 16.
- conserved positions are designated with an asterisk in the alignment shown in Figure SC.
- the mutation occurs at a nucleotide position that causes an amino acid change corresponding to a change to at least one of the following conserved positions of the protein: positions 1- 17, positions 71 -86 and positions 99- 1 13.
- nucleotide change should impair the cells' swarming ability and/or enhance its ability to promote plant health compared to cells with the wildtype swrA gene.
- mutation will also result in the following characteristics compared to wildtype cells: sandpaper cell morphology, more robust root colonization and/or formation of long chains with lack of clumping in liquid culture, as described above.
- the swrA mutation occurs at a position corresponding to positions 1-100, 1-50, 1-40, or 7-40 of any one of SEQ ID NOS. 1 and 5- 10.
- the swrA ' cells have a swrA gene that has percent identity to the swrA gene of SEQ ID NO. 1 of at least about 60%, of at least about 70%, of at least about 80%, of at least about 90%, or of at least about 95%.
- the wildtype version of such swrA ' bacteria with at least about 60% to about 95% sequence identity to SEQ ID NO. I has a swrA protein that is orthologous to SEQ ID NO. 2.
- the microorganism has, at a position corresponding to one or more of positions 26-34 (a homopolymeric stretch of 8 A:T base pairs) or positions 1-3 (the start codon) of the swrA gene set forth as SEQ ID NO. 1 , a mutation.
- this mutation is an insertion or deletion.
- An example of a deletion to positions 26-34 is the mutated swrA gene set forth in SEQ I D NO. 3.
- An example of a mutation where the start codon is mutated to a non-start codon, which produces a non-functional swrA transcript for translation is set forth in SEQ ID NO. 4.
- the swrA ' cells have a swrA ' gene that has sequence identity to a swrA wildtype gene of the same Bacillus species and, in some embodiments, of the same strain, of at least about 85%, of at least about 90%, or of at least about 95%.
- the swrA ' cells have a swrA ' gene that has sequence identity to a swrA wildtype gene of the same Bacillus species and such Bacillus species is within the Bacillus sublilis clade.
- the Bacillus species is pumilus, atrophaeus, amyloliquefaciens, sublilis, licheniformis, aerophilus, straiosphericus, safensis, alliluclinus, vallismorfis, halotolerans, mojavensis, recensis, or aerius.
- the swrA " cells have a mutant swrA gene that has sequence identity to-one or more of the sequences set forth in SEQ ID NOS. 1 and 5- 10 of at least about 85%, of at least about 90%, or of at least about 95%.
- spore-forming bacterial cells including those in the Bacillus sublilis clade, having a mutation in the swrA ortholog comprise a wildtype sfp ortholog.
- such spore-forming bacterial cells also comprise wildtype degQ and epsC orthologs.
- the spore-forming bacterial cells from either of the above embodiments are Bacillus sublilis or Bacillus amyloliquefaciens.
- the sfp, epsC and degQ genes from wildtype QST713 are provided herein as SEQ ID NOS. 1 1 , 12, and 13, respectively.
- Orthologous sfp, epsC and degQ genes from other species including the Bacillus species and strains for which swrA nucleotide sequences have been provided herein (in the sequence listing and/or in Figures 5A, B and C) are publicly available through GenBank and in various papers, including the McLoon paper cited above.
- the wildtype degQ, epsC and sfp orthologs have at least about 90%, or at least about 95%, or at least about 96%, or at least about 97%, or at least about 98%, or at least about 99% sequence identity to one of the degQ, epsC and sfp genes, respectively, in B.
- the spore-forming bacterial cells having the mutation in the swrA ortholog are of the same species as one of the above referenced strains.
- the percentage of swrA ' cells in a particular composition of the present invention will vary depending on the specific purposes and application methods used for the composition.
- the total cells in the compositions and methods of the present invention can include different cell types (e.g., a combination of bacterial and non-bacterial cells), or can include bacterial cells of two or more species, or can include Bacillus cells of two or more
- Bacillus species can be B. sublilis cells of two or more different genotypes or strains, or can be B. amyloliquefaciens cells of two or more different genotypes or strains, or be cells with one or more different swrA' mutations.
- the percentage of swrA ' cells in the total cells in the compositions and methods of the present invention will be at least 3.5%, or at least 3.6%, or at least 3.7%, or at least 3.8%, or at least 3.9%, or at least 4%, or at least 5%, or at least 6%, or at least 7%, or at least 8%, or at least 9%, or at least 10%, or at least 15%, or at least 20%, or at least 25%, or at least 30%, or at least 35%, or at least 40%, or at least 45%, or at least 50%, or at least 55%, or at least 60%, or at least 65%, or at least 70%, or at least 75%, or at least 80%, or at least 85%, or at least 90%, or at least 95%, or at least 98%, or at least 99%, or be 100%.
- all of the cells present in a particular composition or used in a particular method are all swrA ' cells (i.e.e, all of the cells present in a particular composition or used
- the percentage of swrA ' cells in the total cells in the composition and methods of the present invention will be about 3.5% to about 99.9%. In another embodiment, the percentage will be about 5% to about 99%. In another embodiment, the percentage will be about 10% to about 99%.
- g of swrA ' cells in the compositions and methods of the present invention will be at least 1 x 10 7 cfu/g or at least 1 x 10 8 cfu/g or at least 1 x 10 9 cfu/g or at least 2 x 10 9 cfu/g, or at least 3 x 10 9 cfu/g or at least 4 x I 0 9 cfu/g or at least 5 x 10 9 cfu//g or at least 6 x 10 9 cfu/g or at least 7 x 10 9 cfu/g, or at least 8 x 10 10 cfu/g, or at least 8.5 x IO 10 cfu g, or at least 9 x 10 10 cfu/g, or at least 9.5 x IO 10 cfu/g, or at least 1 x 10" cfu/g, or at least 2 x 10" cfu/g, or at least 3 x
- the total amount oi swrA ' cells in the compositions and methods of the present invention is based on the relative or actual dry weight basis of the swrA ' cells in the total compositions.
- the total amount of swrA ' cells in the compositions and methods of the present invention is based on the cfu/g of the swrA ' cells in the compositions.
- the present invention also encompasses methods for enhancing plant health, enhancing plant growth and/or controlling plant pests and diseases by administering to a plant or a plant part, such as a seed, root, rhizome, corm, bulb, or tuber, or by applying to a locus on which plant or plant parts grow, such as soil, one or more of the novel variants and strains of spore-forming bacteria, including Bacillus described above; or cell-free preparations thereof; or metabolites thereof.
- a plant or a plant part such as a seed, root, rhizome, corm, bulb, or tuber
- a locus on which plant or plant parts grow such as soil, one or more of the novel variants and strains of spore-forming bacteria, including Bacillus described above; or cell-free preparations thereof; or metabolites thereof.
- Plant health as used herein means a condition of a plant which is determined by several aspects alone or in combination with each other.
- One important indicator for the condition of the plant is the crop yield.
- Crop" and “fruit” are to be understood as any plant product which is further utilized after harvesting, e.g. fruits in the proper sense, vegetables, nuts, grains, seeds, wood (e.g., in the case of silviculture plants), flowers (e.g., in the case of gardening plants, ornamentals), etc.; that is, anything of economic value that is produced by the plant.
- Another indicator for the condition of the plant is the plant vigor.
- the plant vigor becomes manifest in several aspects, too, some of which are visual appearance, e.g., leaf color, fruit color and aspect, amount of dead basal leaves and/or extent of leaf blades, plant weight, plant height, extent of plant verse (lodging), number, strongness and productivity of tillers, panicles' length, extent of root system, strongness of roots, extent of nodulation, in particular of rhizobial nodulation, point of time of germination, emergence, flowering, grain maturity and or senescence, protein content, sugar content and the like.
- Another indicator for the condition of the plant is the plant's tolerance or resistance to biotic and abiotic stress factors.
- “increased yield” of a plant, in particular of an agricultural, silvicultural and/or ornamental plant means that the yield of a product of the respective plant is increased by a measurable amount over the yield of the same product of the plant produced under the same conditions, but without the application of the composition of the invention.
- the present invention provides the use of the composition of the invention for increasing the yield and/or improving the vigor of a plant, e.g., of an agricultural, silvicultural and/or ornamental plant.
- the present invention further provides a method for increasing the yield and/or improving the vigor of a plant, which comprises treating the plant, the locus where the plant is growing or is expected to grow (i.e., the plant locus), and or the propagules from which the plant grows with the compositions or spore-forming bacteria of the invention.
- the treated plant or plants grown in a treated plant locus are grown in an environment that is physically stressful to the plants being grown. Such conditions may be cold temperatures (e.g., 15 °C or less), drought conditions, low soil nutrients (e.g., with reduced levels of nitrogen and/or potassium and/or phosphate or other inorganic micronulrients) and/or increased, non-optimal soil salinity.
- improved plant vigor means that certain crop characteristics are increased or improved by a measurable or noticeable amount over the same factor of the plant produced under the same conditions, but without the application of the composition of the present invention.
- Improved plant vigor can be characterized, among others, by following improved properties of the plant: (a) improved vitality of the plant, (b) improved quality of the plant and/or of the plant products, e.g., enhanced protein content, (c) improved visual appearance, (d) delay of senescence, (e) enhanced root growth and/or more developed root system (e.g., determined by the dry mass of the root), (0 enhanced nodulation, in particular rhizobial nodulation, (g) longer panicles, (h) bigger leaf blade, (i) less dead basal leaves, (j) increased chlorophyll content, (k) prolonged photosynthetica!ly active period, (1) increased or improved plant stand density, (m) less plant verse (lodging), (n) increased plant weight, (o) increased
- compositions of the present invention are also useful to control plant pathogens, such as plant pathogenic fungi, including, for example, various soil-borne and/or seed-borne pathogens, such as Aphanomyces cochlioides, Cylindrocladium parasiticum, Fusarium avenaceum, Fusariiim culmorum, Phytophlhora capslci, Phylophihora cinnamomi, Py!hi m ultimum, Rhizoctonia solani, Sclerotinia sclerotiomm, Sclerotinia minor, Sclerolhim rolfsii, Usiilago hordei, Stagonospora nodortim, Aspergillus fiimigatus, Verticillium dahliae, Tapesia yallunde, Alternaria alternate and Penicillium expansion.
- the soil- borne pathogens that are controlled are P. capsici, S
- compositions of the present invention are also useful to control plant pests, including plant parasitic nematodes, such as, for example, root-knot, cyst, lesion and ring nematodes, including Meloidogyne spp., Heterodera spp., Globodera spp., Pralylenchiis spp. and Cricone ella sp.
- plant parasitic nematodes such as, for example, root-knot, cyst, lesion and ring nematodes, including Meloidogyne spp., Heterodera spp., Globodera spp., Pralylenchiis spp. and Cricone ella sp.
- Compositions are also useful to control Tylenchulus semipenetrans,
- Trichodorus spp. Longidorus spp., Rotylenchulus spp., Xiphinema spp., Belonolaimiis spp. (such as B. longicaiidatus), Criconemoides spp., Tylenchorhynchiis spp., Hoplolai us spp.,
- Rotylenchus spp. Helicotylenchus spp., Radophohts spp. (such as R. citrophilis and R. similis), Ditylenchus spp. and other plant parasitic nematodes.
- the targets are cyst nematodes, such as Heterodera glycines (soybean cyst nematodes), Heterodera schachlii (beet cyst nematode), Heterodera avenae (Cereal cyst nematode), Meloidogyne incognita (Cotton (or southern) root knot nematode), Globodera rostochiensis and Globodera pallida (potato cyst nematodes).
- the targets are root knot nematodes, such as M. incognita (cotton root knot nematode), M.javanica (Javanese root knot nematode), M. hapla (Northern root knot nematode), and M. arenaria (peanut root knot nematode).
- control means killing or inhibiting the growth of microorganisms or, as to plant pests, such as nematodes, killing, reducing in numbers, and/or reducing growth, feeding or normal physiological development, including, for root knot nematodes, the ability to penetrate roots and to develop within roots.
- An effective amount is an amount able to measurably reduce (i) the growth of microorganisms or, (ii) as to plant pests, pest growth, feeding, mobility, reproductive capability or, (iii) as to plant parasitic nematode pests, specifically, root penetration, maturation in the root, and/or general normal physiological development and symptoms resulting from nematode infection.
- symptoms and/or plant pathogens or plant pests are reduced by at least about 5%, at least about 10%, at least about 20%, at least about, 30%, at least about 40%, at least about 50%, at least about 60%, at least about 70%, at least about 80%, or at least about 90%.
- compositions of the present invention may be present in the compositions of the present invention as spores (which are dormant), as vegetative cells (which are growing), as transition slate cells (which are transitioning from growth phase to sporulalion phase) or as a combination of all of these types of cells.
- the composition comprises mainly spores.
- the percentage of swrA ' cells that are spores is at least about 70%; at least about 80%, at least about 81 %, at least about 82%, at least about 83%, at least about 84%, at least about 85%, at least about 86%, at least about 87%, at least about 88%, at least about 89%, at least about 90%, at least about 95%.
- Metabolites of the novel variants and strains of Bacillus of the present invention include lipopeptides, such as iturins, surfactins, plipastatins, fengycins and agrasiatins and other compounds with antibacterial properties.
- lipopeptide metabolites of QST713 are described in detail in U.S. Patent Nos. 6,291 ,426, and 6,638,910. See, also, Marc Ongena and Philippe Jacques, "Bacillus Lipopeptides: Versatile Weapons for Plant Disease Biocontrol," Trends in Microbiology (March 1 , 2008) Volume 16, Issue 3, 1 15- 125.
- compositions of the present invention can be obtained by culturing the novel variants and strains of Bacillus according to methods well known in the art, including by using the media and other methods described in U.S. Patent No. 6,060,05 1 .
- Conventional large-scale microbial culture processes include submerged fermentation, solid state fermentation, or liquid surface culture. Towards the end of fermentation, as nutrients are depleted, Bacillus cells begin the transition from growth phase to sporulalion phase, such that the final product of fermentation is largely spores, metabolites and residual fermentation medium.
- Sporulalion is part of the natural life cycle of Bacillus cells, including Bacillus subtilis, and is generally initiated by the cell in response to nutrient limitation.
- Fermentation is configured to obtain high levels of colony forming units of Bacillus and to promote sporulation.
- the bacterial cells, spores and metabolites in culture media resulting from fermentation may be used directly or concentrated by conventional industrial methods, such as centrifugation, tangential- flow filtration, depth filtration, and evaporation. Fermentation broth and broth concentrate are both referred to herein as "fermentation products.”
- Compositions of the present invention include fermentation products.
- the concentrated fermentation broth is washed, for example, via a diafiltration process, to remove residual fermentation broth and metabolites.
- the fermentation broth or broth concentrate can be dried with or without the addition of carriers using conventional drying processes or methods such as spray drying, freeze drying, tray drying, fluidized-bed drying, drum drying, or evaporation.
- the resulting dry products may be further processed, such as by milling or granulation, to achieve a specific particle size or physical format.
- Carriers, described below, may also be added post-drying.
- Cell-free preparations of fermentation broth of the novel variants and strains of Bacillus of the present invention can be obtained by any means known in the art, such as extraction, centrifugation and/or filtration of fermentation broth.
- cell-free preparations may not be devoid of cells but rather are largely cell-free or essentially cell-free, depending on the technique used (e.g., speed of centrifugation) to remove the cells.
- the resulting cell-free preparation may be dried and/or formulated with components that aid in its application to plants or to plant growth media. Concentration methods and drying techniques described above for fermentation broth are also applicable to cell-free preparations.
- Metabolites of Bacillus subtilis can be obtained according to the methods set forth in U.S. Patent No. 6,060,05 1.
- the term "metabolites” as used herein may refer to semi- pure and pure or essentially pure metabolites, or to metabolites that have not been separated from Bacillus subtilis.
- the metabolites may be purified by size exclusion filtration such as the Sephadex resins including LH-20, G 10, and G 15 and G25 that group metabolites into different fractions based on molecular weight cut-off, such as molecular weight of less than about 2000 daltons, less than about 1500 daltons, less than about 1000 daltons and so on, as the lipopeptides are between 800 daltons and 1600 daltons.
- size exclusion filtration such as the Sephadex resins including LH-20, G 10, and G 15 and G25 that group metabolites into different fractions based on molecular weight cut-off, such as molecular weight of less than about 2000 daltons, less than about 1500 daltons, less than about 1000 daltons and so on, as the lipopeptides are between 800 daltons and 1600 daltons.
- compositions of the present invention may include formulation inerts added to compositions comprising cells, cell-free preparations or metabolites to improve efficacy, stability, and usability and/or to facilitate processing, packaging and end-use application.
- formulation inerts and ingredients may include carriers, stabilization agents, nutrients, or physical property modifying agents, which may be added individually or in combination.
- the carriers may include liquid materials such as water, oil, and other organic or inorganic solvents and solid materials such as minerals, polymers, or polymer complexes derived biologically or by chemical synthesis.
- the carrier is a binder or adhesive that facilitates adherence of the composition to a plant part, such as a seed or root.
- the stabilization agents may include anti-caking agents, anti-oxidation agents, desiccants, protectants or preservatives.
- the nutrients may include carbon, nitrogen, and phosphors sources siich as sugars, polysaccharides, oil, proteins, amino acids, fatty acids and phosphates.
- the physical property modifiers may include bulking agents, wetting agents, thickeners, pH modifiers, rheology modifiers, dispersants, adjuvants, surfactants, antifreeze agents or colorants.
- the composition comprising cells, cell-free preparation or metabolites produced by fermentation can be used directly with or without water as the diluent without any other formulation preparation.
- the formulation inerts are added after concentrating fermentation broth and during and/or after drying.
- compositions of the present invention are used to treat a wide variety of agricultural and/or horticultural crops, including those grown for seed, produce, landscaping and those grown for seed production.
- Representative plants that can be treated using the compositions of the present invention include but are not limited to the following: brassica, bulb vegetables, cereal grains, citrus, cotton, curcurbits, fruiting vegetables, leafy vegetables, legumes, oil seed crops, peanut, pome fruit, root vegetables, tuber vegetables, corm vegetables, stone fruit, tobacco, strawberry and other berries, and various ornamentals.
- compositions of the present invention may be administered as a foliar spray, as a seed/root/tuber/rhizome/bulb/corm/slip treatment and/or as a soil treatment.
- the seeds/root/tubers/rhizomes bulbs/corms/slips can be treated before planting, during planting or after planting.
- the compositions of the present invention are applied at a rate of about 1 x 10 2 to about 1 x 10 7 cfu/seed, depending on the size of the seed. In some embodiments, the application rate is about 1 x 10 3 to about 1 x 10 6 cfu per seed.
- compositions of the present invention can be applied as a soil surface drench, shanked-in, injected and/or applied in-furrow or by mixture with irrigation water.
- the rale of application for drench soil treatments which may be applied at planting, during or after seeding, or after transplanting and at any stage of plant growth, is about 4 x 10 1 1 to about 8 x 10 12 cfu per acre.
- the rate of application is about I x l O 12 to about 6 x 10 12 cfu per acre.
- the rate of application is about 6 x 10 12 to about 8 x I 0 12 cfu per acre.
- the rate of application for in-furrow treatments, applied at planting is about 2.5 x l O 10 to about 5 x 10" cfu per 1000 row feet.
- the rale of application is about 6 x 10 10 to about 4 x lO 1 1 cfu per 1000 row feet.
- the rate of application is about 3.5 x ⁇ " cfu per 1000 row feet to about 5 x ⁇ ⁇ " cfu per 1000 row feet.
- compositions of the present invention may be mixed with other chemical and non-chemical additives, adjuvants and/or treatments, wherein such treatments include but are not limited to chemical and non-chemical fungicides, insecticides, miticides, nematicides, fertilizers, nutrients, minerals, auxins, growth stimulants and the like.
- the compositions of the present invention further comprise insecticides, miticides, nematicides, fertilizers, nutrients, minerals, auxins, growth stimulants and the like.
- the compositions of the present invention are applied in rotation with other treatments; e.g., as part of a spray program.
- the compositions of the present invention are applied to plants at the same time as the other treatments.
- compositions are used to control plant diseases and/or to enhance plant health
- the compositions are mixed with, further comprise, or are applied at the same time as or as part of a treatment program with at least one fungicide.
- fungicides include, but are not limited to, strobilurins, carboxamides, sulfananilides, phenylsulfamides, azoles, nitrogenous heterocycles, dicarboximides,
- phthalimides carbamates, thiocarbamates, formaidines, antibiotics, aromatics, guanidines, organochlorine compounds, organometallics, organophosphonis compounds, nitrophenyl compounds, sulfur heterocyclyl compounds, ureas, inorganics, and others (e.g., benzamacril, carvone, essential oil extract from plants, cedar leaf oil, neem oil, chloropicrin, DBCP, drazoxolon, fenaminosulf, metzoxolon, oxolinic acid, spiroxamine, cymoxanil, metrafenone.
- RANMANTM Ishihara Sangyo aisha, Ltd
- microbe-based products including but not limited to Bacillus subtilis-based products, Bacillus pumilus-based products, such as those based on Bacillus pumilus which are available from AgraQuest, Inc. as SONATA ® or BALLAD ® and Sfreptomyces-based products, such as products based on Slreplomyces sp. AQ4800TM.
- SONATA ® or BALLAD ® Sfreptomyces-based products, such as products based on Slreplomyces sp. AQ4800TM.
- SONATA ® SONATA ®
- BALLAD** AgraQuest
- Strobilurins include, but are not limited to, azoxystrobin, dimoxystrobin, enestroburin, fluoxastrobin, kresoxim-methyl, metominostrobin, picoxystrobin, pyraclostrobin, pyroxastrobin, trifloxystrobin, orysastrobin, methyl (2-chloro-5-[ l -(3- methylbenzyloxyiniino)-ethyl]benzyl)-carbainate, methyl (2-chloro-5-[ l -(6-methylpyrid in-2- ylmethoxyimino)ethyl]benzyl)carbamate, methyl 2-(ortho-(2,5-dimethylphenyloxymethylene) phenyl)-3-methoxyacrylate; 2-(2-(6-(3-chloro-2-methyl-phenoxy)-5-fluoro-pyrimidin-4- yIoxy)phen
- Carboxamides include, but are not limited to, carboxanilides (e.g., bixafen, boscalid, carboxin, fenhexamid, furametpyr, isopyrazam, isotianil, metsulfovax, oxycarboxin, pyracarbolid, penthiopyrad, sedaxane (racemic cis and trans isomers), thifluzamide, tiadinil, N-(4'-bromobiphenyI-2-yl)-4-difluoromethyl-2-methylthiazole-5- carboxamide, N-(4'-trifluoromethyl-biphenyl-2-yl)-4-difluoromethyl-2-methylthiazole-5- carboxamide, N-(4'-chloro-3 '-fluorobiphenyl-2-yl)-4-difluoro-methyl-2-methylthiazole-5- carboxamtde, N-(3
- Patent No. 5,304,572 and N-(3-ethyl-3,5-5- trimethyl-cyclohexyl)-3-formyl-amino-2-hydroxybenzamide ), benzanilides (e.g., benodanil, flutolanil, mebenil, mepronil, salicylanilide, and tecloftalam), furanilides (e.g., fenfuram, furalaxyl, furcarbanil, and methfuroxam), furamides (e.g., cyclafuramid, and
- nicotinamides e.g., 2-chIoro-N-(l ,l ,3-trimethyl-indan-4-yl)-nicotinamide, N- (l -(5-bromo-3-chloro-pyridin-2-yl)ethyl)-2,4-dichloro-nicotinamide, 2-amnio-4nelhyl-thiazole-5- carboxamide, and N-((5-bromo-3-chloropyridin-2-yl)-niethyl)-2,4-dichloro-nicotinamide), sulfonamide (e.g., N-(4-chloro-2-nitrophenyl)-N-ediyl-4-methyl-benzenesuIfonamide), penthiopyrad, isopyrazam, l -methyl-pyrazol-4-ylcarboxamide, and other carboxamides (e.g., 2-chI
- Sulfananilides include, but are not limited to, flusulfamides.
- Phenylsulfamides include, but are not limited to, dichlofuanid and tolyfluanid.
- Azoles include, but are not limited to, triazoles (e.g., azaconazole, bitertanol, bromuconazole, cyproconazole, difenoconazole, diniconazole, diniliconazole-M, enilconazole, epoxiconazole, etaconazole, fenbuconazole, flusilazole, fluotrimazole, fluquinconazole, flutriafol, furconazole, furconazole-cis, hexaconazole, imibenconazole, ipconazole, metconazole, myclobutanil, palcobutrazol, penconazole, propiconazole, prothioconazole, quinconazole, simeconazole, tebuconazole, tetraconazole, triadimenol, triadimefon, triazbutil, tritic
- Nitrogenous heterocycles include, but are not limited to, pyridines (e.g., buthiobate, dipyrithone, fluazinam, pyridinitril, pyrifenox, pyroxychlor, pyroxyfur, 2,3,5.6- tetrachIoro-4-methanesulfonlypyridine, 3,4,5-trichloro-pyridine-2,6-di-carbonitrile, and 3- [5-(4-chlorophenyl)-2,3-dimethyl isoxazolidin-3- yl]pyridine), pyrimidines (e.g., bupirimate, cyprodinil, diflumetorim, dimethirimol, ethirimol, ferimzone, fenarimol, mepanipynm, nuarimol, triarimol, and pyrimethanil), piperazine (e.g., triforine), piperidines (e.g., fenpropyl,
- Dicarboximides include, but are not limited to, chlozolinate, dichlozoline, iprodione, isovaledione, myclozolin, procymidone, vinclozolin, famoxadone, and fluoroimide.
- Phthalimides include, but are not limited to, captafol, captan, ditalimfos, folpet, and trichlorfenphim.
- Carbamates include, but are not limited to, diethofencarb,
- Thiocarbamates include, but are not limited to, methasulfocarb and prothiocarb.
- Dithiocarbamates include, but are not limited to, azthiram, carbamorph, cufraneb, cuprobam, dazomet, disulfuram, ferbam, mancozeb, maneb, milneb, metiram, metam, nabam, propineb, tecoram, thiram, zineb, and ziram.
- Formamidines include, but are not limited to, N'-(4-(4-chloro-3- trifluoromethyl-phenoxy)-2,5-dimethylphenyl)-N-ethyl-N-methyl formamidine, N'-(4-(4-fluoro- 3-trifluoromethylphenoxy)-2,5-dimethyl-phenyl)-N-ethyl-N-methyl formamidine, N '-(2- methyl-5-trifluormethyl-4-(3-trimethyl-silanyl-propoxy)phenyl)-N-ethyl-N fomiamidine, and N'-(5-dinuormethyl-2-meUiyl-4-(3-trmieu ⁇ yl-siIanylpropoxy)phenyl)-N-ethyl-
- Antibiotics include, but are not limited to, aureofungin, blasticidin-S, griseofulvin, kasugamycin, natamycin, polyoxin, polyoxorim, streptomycin, and
- Aromatics include, but are not limited to, biphenyl, chloroneb, and cresol.
- Guanidines include, but are not limited to, dodine, iminoctadine triacetate, iminoctadine tris(albesilate), and guazatine acetate.
- Organochlorine compounds include, but are not limited to, bithionol, chlorothalonil, phthalide, hexachlorobenzene, pencycuron, pentachlorophenol,
- Organometallics include, but are not limited to, fentin salts, decafentin, and tributyltin oxide.
- Organophosphorus compounds include, but are not limited to, ampropylfos, edifenphos, fenitropan, fosetyl, fosetyl-aluminum, hexylthiofos, iprobenfos, phosdiphen, triamphos, pyrazophos, tolclofos-methyl, phosphorous acid and its salts.
- Nitrophenyl compounds include, but are not limited to, binapacryl, chlorodinitronapthalene, dichloran, dinocap, dinobuton, meptyldinocap, dinocton, dinopenton, dinosulfon, dinoterbon, DNOC, sultropen, and tecnazene (TCNB).
- Sulfur heterocyclyl compounds include, but are not limited to,
- Ureas include, but are not limited to, pencycuron and quinazimid.
- Inorganics fungicides include, but are not limited to, Bordeaux mixhire, copper acetate, copper hydroxide, copper oxide, copper oxychloride, basic copper sulfate, sulfur, sodium bicarbonate, and potassium bicarbonate.
- compositions are mixed with or further comprise at least one fertilizer, nutrient, mineral, auxin, growth stimulant and the like, referred to below as plant health compositions.
- a plant health composition/compound is a composition/compound comprising one or more natural or synthetic chemical substances, or biological organisms, capable of maintaining and/or promoting plant health. Such a composition/compound can improve plant health, vigor, productivity, quality of flowers and fruits, and/or stimulate, maintain, or enhance plant resistance to biotic and/or abiotic stressors/pressures.
- Traditional plant health compositions and/or compounds include, but are not limited to, plant growth regulators (aka plant growth stimulators, plant growth regulating compositions, plant growth regulating agents, plant growth regulants) and plant activating agents (aka plant activators, plant potentiators, pest-combating agents).
- plant health composition in the present invention can be either natural or synthetic.
- Plant growth regulators include, but are not limited to, fertilizers, herbicides, plant hormones, bacterial inoculants and derivatives thereof.
- Fertilizer is a composition that typically provides, in varying proportions, the three major plant nutrients: nitrogen, phosphorus, potassium known shorthand as N-P- ); or the secondary plant nutrients (calcium, sulfur, magnesium), or trace elements (or micronutrients) with a role in plant or animal nutrition: boron, chlorine, manganese, iron, zinc, copper, molybdenum and (in some countries) selenium. Fertilizers can be either organic or non-organic. Naturally occurring organic fertilizers include, but are not limited to, manure, worm castings, peat moss, seaweed, sewage and guano.
- Cover crops are also grown to enrich soil as a green manure through nitrogen fixation from the atmosphere by bacterial nodules on roots; as well as phosphorus (through nutrient mobilization) content of soils.
- Processed organic fertilizers from natural sources include compost (from green waste), bloodmeal and bone meal (from organic meat production facilities), and seaweed extracts (alginates and others). Fertilizers also can be divided into macronutrients and micronutrients based on their concentrations in plant dry matter.
- the macronutrients are consumed in larger quantities and normally present as a whole number or tenths of percentages in plant tissues (on a dry matter weight basis), including the three primary ingredients of nitrogen (N), phosphorus (P), and potassium (K), (known as N-P-K fertilizers or compound fertilizers when elements are mixed intentionally).
- N-P-K fertilizers or compound fertilizers when elements are mixed intentionally.
- micronutrients required in concentrations ranging from 5 to 100 parts per million (ppm) by mass.
- Plant micronutrients include iron (Fe), manganese (Mn), boron (B), copper (Cu), molybdenum (Mo), nickel (Ni), chlorine (CI), and zinc (Zn).
- Plant hormones a (aka phylohonnones) and derivatives thereof include, but are not limited to, abscisic acid, auxins, cytokinins, gibberellins, brassinolides, salicylic acid, jasmonates, plant peptide hormones, polyamines, nitric oxide and strigolactones.
- Plant activating agents are natural or synthetic substances that can stimulate, maintain, or enhance plant resistance to biotic and/or abiotic stressors/pressures, which include, but are not limited to, acibenzolar, probenazole, isotianil, salicyclic acid, azelaic acid, hymexazol, brassinolide, forchlorfenuron, benzothiadiazole (e.g., ACTIGARD ® 50WG), microbes or elicitors derived from microbes, More plant activating agents are described in U.S. Patent Nos. 6,849,576; 5,950,361 ; 6,884,759; 5,554,576; 6, 100,092; 6,207,882; 6,355,860;
- Microbes or chemical compounds and peptides/proteins (e.g., elicitors) derived from microbes, can also be used as plant activating agents.
- elicitors are: branched-P-glucans, chitin oligomers, pectolytic enzymes, elicitor activity independent from enzyme activity (e.g. endoxylanase, elicitins, PaNie), avr gene products (e.g.,
- AVR4 AVR9
- viral proteins e.g., vial coat protein, Harpins
- flagellin protein or peptide toxin
- glycoproteins e.g., viclorin
- glycopeptide fragments of invertase e.g., syringolids
- Nod factors e.g., viclorin
- Bacterial inoculants are compositions comprisin beneficial bacteria that are used to inoculate soil, often at the time of planting.
- Such bacterial inoculants include nitrogen- fixing bacteria or rhizobia bacteria.
- Bradyrhizobia japonicum is commonly used for soybean inoculation and Bradyrhizobia sp. (Vigna) or (Arachis) for peanuts.
- Other rhizobia are used with other crops: Rhizobium leguminosarum for peas, lentils and beans and alfalfa and clover and Rhizobium loti, Rhizobium leguminosarum and Bradyryizohium spp. for various legumes.
- compositions of the present invention are mixed with or further comprise at least one bacterial inoculant and then applied to soil or to seed.
- compositions and bacterial inoculant are applied to a plant, a plant part or the locus of the plant or plant part at the same time or sequentially.
- compositions of the present invention are mixed with, further comprise, or are applied at the same time as or as part of a spray program with insecticides.
- suitable insecticides include neonicotinoid insecticides such as l -(6-chloro-3- pyridylme yl)-N-nitroimidazolidin-2-ylideneamine (imidacloprid), 3-(6-chloro-3- pyridylmethyl)- l ,3-thiazolidin-2-ylidenecyanamide (thiacloprid), l -(2-chloro-l ,3-thiazol-5- ylmethyl)-3-melhyl-2-nitroguanidine (clothianidin), nitempyran, N.sup.
- compositions in which the compositions are used to control nematodes, the compositions further comprise or are mixed with or are applied at the same time as or as part of a treatment program with at least one other nematicide.
- nematicide includes nematode control agents, such as those that kill nematodes and those that inhibit nematode growth and/or development.
- the second nematicide may be a chemical or a biological nematicide.
- chemical nematicide excludes fumigants
- fumigants encompasses broad spectrum pesticidal chemicals that are applied to soil pre- planting and that diffuse through the soil (in soil air and/or soil water) and may be applied as gases, such as methyl bromide, volatile liquids, such as chloropicrin, or volatile solids, such as dazomet.
- the chemical or biological nematicide is a commercially available formulated product and is tank mixed with the compositions of the present invention. In other embodiments, the chemical or biological nematicide is mixed with the Bacillus-based compositions of the present invention prior to formulation so that the active components ultimately form one formulated product.
- Chemical nematicides used in such mixtures are carbamates, oxime carbamates, and organophosphorous nematicides.
- Carbamate nematicides include benomyl, carbofuran, (FURADAN®), carbosulfan and cloethocarb.
- Oxime carbamates include alanycarb, aldicarb (TEMI ® or as part of the A VICT A® Complete Pak seed treatment from Syngenta), aldoxycarb (STANDARD, oxamyl (VYDATE®), thiodicarb (part of the AER1S ® seed-applied system from Bayer CropScience), and tirpate.
- Organophosphorous nematicides include fensulfothion (DANSANIT ® ), ethoprop. (MOCAP ® ), diamidafos, fenamiphos, fosthietan, phosphamidon, cadusafos, chlorpyrifos, dichlofenthion, dimethoale, fosthiazate, heterophos, isamidofos, isazofos, phorate, phosphocarb, terbufos, thionazin, triazophos, imicyafos, and mecarphon. Parenthetical names following each compound are representative commercial formulations of each of the above chemicals.
- Other chemical nematicides useful for such mixtures include spirotetramat (MOVENTO ® ), MON37400 nematicide and fipronil.
- Biological nematicides include chitin and urea mixtures; compost extracts and teas (both aerated and nonaerated); compositions comprising the fungus Myrotheci m verrucaria and/or metabolites therefrom (commercially available as DITERA®); compositions comprising the fungus Paecilomyces, including P. lilacinus (commercially available as, for example, MELOCON® or BIOACT*); the bacterium Pasteuria, including P. usgae , compositions comprising such bacterium (commercially available as, for example, ECONEM ® ); bacteria from the Bacillus sp., including Bacillus firmus (including CNMC 1-1582, deposited with the
- amyloliquefaciens Bacillu pu ilus (including the strain deposited with NRRL as No. B-30087 on January 14, 1999, and its mutants) and Bacillus ceretts and compositions comprising one or more of the above bacteria; nematicidal Streptomyceie sp., such as Streptomyces lydicus and compositions comprising such bacteria (commercially available as A CT1 NOVATE**) and nematophagous fungi, including Duddingtonia flagrans, such as strain T-89, deposited in the collection of microorganisms of GNC VB "Vector" ( oltsovo settlement, Novosibisrsk region) under No.
- Bio nematicides also include botanically-based nematicides such as products based on neem plants (including seeds or oil from the plants) or azidirachtin, a secondary metabolite of neem seeds, sesame oil- based products (such as DRAGONFIRE ), carvacrol, and products based on plant extracts (such as NEMA-Q®, obtained from the Quillaja saponaria tree of Chile).
- botanically-based nematicides such as products based on neem plants (including seeds or oil from the plants) or azidirachtin, a secondary metabolite of neem seeds, sesame oil- based products (such as DRAGONFIRE ), carvacrol, and products based on plant extracts (such as NEMA-Q®, obtained from the Quillaja saponaria tree of Chile).
- Biological nematicides also include isolated compounds produced by bacteria, such as the mectins, a family of chemical compounds which are produced by Slreplomyces avermentilis, including abamectin (consisting of a combination of abamectin Bi a and Bi b ) and avermectin B2 a , and the harpin proteins, originally identified in Erwinia amylovora, including harpinE A and harping.
- mectins a family of chemical compounds which are produced by Slreplomyces avermentilis, including abamectin (consisting of a combination of abamectin Bi a and Bi b ) and avermectin B2 a
- abamectin consisting of a combination of abamectin Bi a and Bi b
- avermectin B2 a avermectin B2 a
- the swrA ' cells are co-formulated with at least one fungicide, insecticide, miticide, nematicide, fertilizer, nutrient, mineral, auxin, growth stimulant and/or other plant health product and the co-formulated product is applied to the plant, plant part, or plant locus.
- compositions of the present invention are tank mixed with commercially available formulations of the fungicide, insecticide, miticide, nematicide, fertilizer, nutrient, mineral, auxin, growth stimulant and/or other plant health product and applied to plant, plant parts and/or plant loci.
- the compositions of the present invention are applied to plants, plant parts, and/or plant loci immediately before or after application of commercially available formulations of the fungicide, insecticide, miticide, nematicide, fertilizer, nutrient, mineral, auxin, growth stimulant and/or other plant health product.
- compositions of the present invention are applied to plants, plant parts and/or plant loci in rotation with the commercially available formulations of the fungicide, insecticide, miticide, nematicide, fertilizer, nutrient, mineral, auxin, growth stimulant and/or other plant health product.
- the Bacillus subtilis-based compositions are applied as a seed treatment or as an in-furrow or drench treatment, as discussed in more detail herein.
- the commercially available formulations of the fungicide, insecticide, miticide, or nematicide are applied at a rate that is less than the rale recommended on the product label for use of such fungicide, insecticide, miticide, or nematicide as a stand-alone treatment.
- the fungicide, insecticide, miticide and/or nematicide is a chemical.
- the chemical is one that has toxicity issues and may also be undergoing a "phase out" by relevant governmental agencies in one or more countries.
- the compositions of the present invention are applied to plants, plant parts and/or plant loci following application of a fumigant.
- Fumigants can be applied by shank injection, generally a minimum of 8 inches below the soil surface.
- Liquid formulations of fumigants can also be applied through surface drip chemigation to move the fumiganl to a depth of 8 inches or more below the soil surface.
- Treated soil beds are covered with a plastic tarp to retain the fumigant in the soil for several days. This is done before planting and allowed to air out prior to planting.
- the Bacillus-based compositions described herein would be applied after such air-out period either prior to, at the time of, or post-planting.
- the fumigants are applied at a rate that is less than the rate recommended on the product label.
- Fumigants include halogenated hydrocarbons, such as chloropicrin (CHLOR-O-PIC®), methyl bromide (METH-O-GAS®) and combinations thereof (such as BROM-O-GAS® and TERR-O-GAS ® ), I ,3-dichloropropene (TELONE ® II, TELONE® EC, CURFEW®) and combinations of 1 ,3-dichloropropene with chloropicrin
- MIDAS ® methyl iodide
- methyl isocyanate liberators such as sodium methyl dithiocarbamate (VAPAM ® , SOI LPREP®, METAM- SODiUM®); combinations of 1 ,3 dichloropropoene and methyl isolhiocyanate (VORLEX®); and carbon disulfide liberators, such as sodium tetrathiocarbonate (ENZONE*) and dimethyl disulphide or DMDS (PALADINO®).
- VAPAM ® sodium methyl dithiocarbamate
- SOI LPREP® SOI LPREP®
- METAM- SODiUM® combinations of 1 ,3 dichloropropoene and methyl isolhiocyanate
- carbon disulfide liberators such as sodium tetrathiocarbonate (ENZONE*) and dimethyl disulphide or DMDS (PALADINO®).
- compositions of the present invention may also be applied as part of an integrated pest management ("IPM") program.
- IPM integrated pest management
- Such programs are described in various publications, especially by university cooperative extensions.
- nematodes such programs include crop rotation with crops that cannot host the target nematode, cultural and tillage practices, and use of transplants.
- the Bacillus-based compositions described herein could be applied after a season of growth with mustard or other nematode suppressive crop.
- compositions of the present invention to plants, plant parts or plant loci is preceded by identification of locus in need of treatment.
- identification may occur through visual identification of plants that appear chlorotic, stunted, necrotic, or wilted (i.e., that appear to have nutrient deficiencies) typically coupled with knowledge of a history of nematode problems; plant sampling; and/or soil sampling. Plant sampling may occur during the growing season or immediately after final harvest. Plants are removed from soil and their roots examined to determine the nature and extent of the nematode problem within a field.
- root gall severity is determined by measuring the proportion of the root system which is galled.
- Galls caused by root knot nematodes may be distinguished from nodules of nitrogen-fixing soil bacteria because galls are not easily separated from the root. Root knot nematode soil population levels increase with root gall severity. In some instances, the detection of any level of root galling suggests a root knot nematode problem for planting any susceptible crop, especially in or near the area of sampling. Cyst nematodes may also be identified by plant sampling and scrutiny of roots for cysts.
- Soil sampling offers a means to determine the number of nematodes and/or nematode eggs infesting a certain volume of soil or roots. Soil sampling may be conducted when a problem is first suspected, at final harvest, or any time prior to planting a new crop, including prior to crop destruction of the previous crop.
- University cooperative extension programs offer soil sampling services, including the University of Florida, Oregon State University and the University of Kansas-Lincoln. In addition, such programs provide guidance for how to collect samples. For example, in one method of post-harvest predictive sampling, samples are collected at a soil depth of 6 to 10 inches from 10 to 20 field locations over 5 or 10 acres (depending on value of the crop, with fewer acres sampled for higher value crops) in a regular zigzag pattern. In a method of testing established plants, root and soil samples are removed at a soil depth of 6 to 10 inches from suspect plants that are symptomatic but that are not dead or dying; i.e., decomposing.
- identification involves determining whether an economic threshold of a pest, such as a nematode, has been reached; i.e., a point at which expected economic losses without treatment exceed treatment costs.
- the economic threshold varies depending on the crop, geography, climate, time of planting, soil type, and/or soil temperature. Numerous papers have been published on this topic and guidelines are available from university cooperative extension programs in different areas. See, for example, Robb, J.G., et al., "Factors Affecting the Economic Threshold for Heterodera schachtii Control in Sugar Beet," Economics of Nematode Control January-June 1992; Hafez, Saad L. "Management of Sugar Beet
- Nematode University of Idaho Current Information Series (CIS) 1071 ( 1 98); and UC 1PM Pesi Management Guidelines: Tomato UC ANR Publication 3470 Nematodes A. Ploeg, Nematology, UC Riverside (January 2008). Determining the economic threshold for a particular crop at a particular time of year is well within the skill set of one of ordinary skill in the art.
- the soil sampling reveals that the nematode infestation will cause yield that is about 80%, about 90%, or about 95% of normal for uninfested soil.
- the economic threshold of root knot juveniles per kilogram of soil sample is at least about 250, at least about 300, at least about 500, at least about 750, at least about 1000, at least about 2000, at least about 3000, at least about 4000, at least about 5000, or at least about 6000.
- the economic threshold of cyst nematode eggs and larvae per 1 cm J soil is at least about 0.5, at least about 1, at least about 2, at least about 3, at least about 4. According to Hafez (1998), supra, a cyst may be estimated as 500 viable eggs and larvae.
- the present invention also encompasses a method for identifying and/or producing a plant growth enhancing bacterial product by screening cells of a Bacillus species within the Bacillus subtilis clade, selecting cells with a mutation in the swrA gene; and producing a fermentation product with cells with the swrA ' mutation.
- screening entails plating a Bacillus species, choosing individual bacterial colonies, isolating DNA from each colony, and sequencing the swrA gene using primers based on the swrA sequences provided in Figure 5. Appropriate PCR conditions will be known by those of ordinary skill in the art. Exemplary primers and PCR conditions are set forth in Example 24.
- the screening is preceded by growing the cells and selecting the cells with one of more of the following characteristics: the sandpaper morphology or impaired swarming ability compared to wildtype cells. Swarming ability may be assessed in the same way as described in Example 7.
- the selecting step also involves selecting those cells with a mutation in the swrA gene that have enhanced capability to improve plant health compared to wildtype cells. In one aspect, this involves applying the fermentation product to a plant, to a part of the plant and/or to a plant locus and comparing the growth of the plant with a reference plant to which no such fermentation product is applied and/or to a reference plant to which fermentation product from isogenic cells not having the mutation is applied.
- the screening involves screening for a mutation in the swrA gene that corresponds to positions 1-3 or to positions 26-34 of SEQ ID NO. 1 .
- the selected swrA " cells may have any of the mutations described herein in the description of various swrA mutations.
- the present invention also encompasses a method for screening for a plant growth enhancing bacterial product comprising (i) mutating a wildtype swrA gene of bacterial cells from a Bacillus species in the Bacillus subtilis clade to create a mutant bacterial cell; (ii) growing the mutant bacterial cell and characterizing its specific cell morphology; (iii) growing a population of the bacterial cells from the Bacillus species in the Bacillus subtilis clade having a wildtype swrA gene on a solid surface, such as agar; and (iv) selecting the bacterial cells with the cell morphology identified in step (ii), above.
- the swrA mutant is created by antisense or transposon technology. Specific examples are provided in Example 25.
- the present invention encompasses a method for producing a plant growth promoting product comprising:
- the method further comprises drying the bacteria! cells from step (b).
- the method further comprises adding a carrier or formulation inert.
- the growing step occurs in a biofermentor.
- the biofermentor has at least a 2L capacity.
- QST713 wild type swrA*, QST30002 (aka AQ30002) and QST30004 (aka AQ30004) have been deposited with the Agricultural Research Service Culture Collection located at the National Center for Agricultural Utilization Research, Agricultural Research Service, U.S. Department of Agriculture, 1815 North University Street, Peoria, IL 61604.
- QST713 wild type swrA * (deposited on October 5, 2010) has been assigned the following depository designation: NRRL B-50420.
- QST30002 (deposited on October 5, 2010) has been assigned the following depository designation: NRRL B-50421.
- QST30004 (deposited on December 6, 2010) has been assigned the following depository designation: NRRL B-50455.
- the sandpaper variants presented a different colony morphology on nutrient agar culture plates than did the QST713 wild type cells.
- the sandpaper cells formed highly compacted and hydrophobic colonies on the solid medium (see images of QST713 wild type and sandpaper colonies taken with a Keyence Digital Microscope in Figure 1).
- the "sandpaper" name was given to these variants because their phenotype presents flat dry colonies that are compact, very "crispy” and very hard to remove from the agar on which they are grown (i.e., very adherent colonies). From this initial discovery a single strain with the sandpaper morphology was initially isolated and selected for further characterization. This strain was designated AQ30002.
- AQ300O2 also exhibits a distinct morphological response to growth in high shear liquid culture.
- AQ30002 and QST713 show very similar morphology and growth habits when grown in liquid culture with shaking; however, if an object (e.g., plastic pipette tip) is placed in the tube, the increased turbulence produced by the movement of this object within the culture appears to trigger a morphological shift in AQ30002 only, preventing the separation of vegetative cells after division (chaining) and producing large clumps of filaments.
- This phenotype can be observed both microscopically and by direct observation of the culture tubes after 8-9 hours of growth. Compare images provided in Figure 3, which were obtained as follows.
- Glycerol culture stocks of AQ30002 and QST713 wild type were grown over night on nutrient agar plates.
- One colony from each plate was placed individually into 3mL of Luria Broth in an 8mL snap cap tube and a l mL DNAse-free pipet tip was placed in the inoculated lube.
- One colony from each plate was also grown under the same conditions in a tube without a pipet tip. The tube was shaken at 37 °C at 260 rpm and growth compared after 8-9H using light microscopy.
- a number ol ' Bacillus genes e.g., sinR
- sinR mutants are "clumpy” when grown in liquid culture, consistent with the idea that this mutant is producing biofilm at all times independent of environmental signals. This property would not be desirable for commercial development and in general suggests that downstream, effector genes in biofilm production, such as SinR, would not be good commercial candidates.
- swrA appears to be part of a natural cellular switch that allows Bacillus cells to adjust to their environment.
- swrA has not been previously described as a biofilm regulator, it has been recognized for its role in shifting cells between two distinct morphological states in liquid culture: single planktonic cells or chains of connected cells (Kearns and Losick, "Cell Population Heterogeneity During Growth of Bacillus subrilis", Genes and Development (2005): 19, pp3083-3094.) Consistent with this report, swrA mutant cells are still responsive to environmental signals. When grown in liquid culture, these cells grow as single cells or chains, but do not appear to clump or form biofilm.
- swrA is a normal genetic switch that shifts cells to the ability to produce a distinct type of biofilm and (because it acts early in the pathway) slill allows cells to respond to environmental signals (e.g., non-adherent growth in liquid culture and biofilm formation when grown on solid media).
- the bioreactor is controlled with specific temperature, agitation, pH, and aeration to promote the growth of the organism and the expression of active metabolites.
- Typical bioreactor settings include a temperature setting between 25 °C and 37 °C, an agitation setting of 200 to 1000 rpm, a pH buffered to stay somewhere between 6 and 8, and aeration set between 0.2 and 1.0 VVM.
- preservatives and other additives may be mixed into the bioreactor broth to simulate commercial product for field trial experiments.
- Example 3 Quantification of Sandpaper Mutation Frequency in Bacillus subtilis QST713 102011
- Various commercial lots of SERENADE** ASO produced by AgraQuest, Inc. were diluted (1/10E+6) and plated on Nutrient Agar (NA) to resolve individual colonies.
- the sandpaper-like colonies were confirmed as being mutants of QST713 wild type by 16S rDNA sequencing.
- sandpaper-like or “sp-like” refers to a cell having a colony morphology similar to the colony morphology of QST713 sandpaper cells (see, e.g., Figure 1 ) when grown on agar nutrient.
- Rhizovital FZB42 B. atnyloliquefaciens 3,784 8 0.21 14
- sequence reads totaling approximately 70x coverage of each isolate's genome were generated and aligned to the reference QST713 wild type genome.
- Sandpaper phenotype is most likely caused by a single mutation in one gene.
- SwrA is an unusually distinct protein with no related proteins identifiable outside this group, nor any predicted function. Because this group of Bacillus species (B. sublilis clade) is monophyletic by 16S rDNA comparison and the swrA gene is present in all 4 branches of the clade, we conclude that this gene arose early in this lineage and most likely is present in all species within the group.
- subtilis strain NCIB 36 ⁇ 0 swrA gene at GenBank ID ABV89964.1 also see cited therein, Zeigler, et al., 2008, "The Origins of 168, W23, and Other Bacillus siiblilis Legacy Strains," J. Bacteriol. 1 0(21):6983-6995).
- the QST713 sandpaper mutants with a deletion in the swrA genetic sequence were stable after 15 passages in flasks in Trypticase Soy Broth (TSB) Medium (17 g/L pancreatic digest of casein, 3 g L papaic digest of soybean meal, 5 g/L sodium chloride, 2.5 g/L dipotassium phosphate, 2.5 g/L dextrose).
- TTB Trypticase Soy Broth
- No QST713 wild type revertant cells were found when sandpaper cells were plated on NA after being transferred 15 times in flasks.
- subtilis (ICE Bsl) transposon (see Smits and Grossman, above) which facilitates the movement of DNA cloned in the plasmid vector into Bacillus species. This occurs by natural competence with the desired DNA construct inserted between two domains which are homologous to locations in the Bacillus genome.
- SPC media 10 ml 1 OX Spizizen, 1 ml 50% glucose, 4 ml 5% yeast extract, 2.5 ml 1% casamino acids, 1.6 ml 2.5 mg/ml tryptophan, 0.5 ml 1 M MgS0 4 ; 10X Spizizen Salts: 2% (NH 4 )2S0 4 , 14% anhydrous K 2 HP0 , 6% K 2 HP0 4 , 1 % trisodium cilrale»2H 2 0, 0.2%
- Mg 2 SO 4 »7H 2 0 transferred to SPII media ( 10 ml 10X Sp householdn, 1 ml 50% glucose, 2 ml 5% yeast extract, 1 ml 1 % casamino acids, 1.6 ml 2.5 mg/ml tryptophan, 1 ml 50 mM CaCl 2 , 0.5 ml I M MgS0 4 ), pelleted, and resuspended in SPH media.
- the MMB869 cells were then added to a small volume of M E solution (0.200 ml 10X Spizizen Salts, 0.020 ml 200mM EGTA, 1.780 ml sterile, deionized water) containing the purified plasmid DNA. The cell and DNA mixture incubated al 37 °C for I hour with shaking.
- AQ30002_strepR (AQ30002 containing a streptomycin resistance gene) was grown on LB-Agar overnight. Single colonies of the pPen swrA and endoPro_iiv/v4 MMB869 strains were transferred into LB + Kanamycin. A single colony of AQ30002_strepR was also transferred into LB + Streptomycin. These three cultures were grown to an OD600 of - 1.0, diluted to OD600 of 0.02 in fresh LB, grown for ⁇ 1 hour at 37 °C, and xylose was added to induce the ICE construct excision and transfer to AQ30002_strepR via conjugation.
- Root colonization biofilm formation on the root
- a root dipped in sterile water served as the negative control.
- AQ30002_strepR (designated AQ30002_endoPro_iM>/vf_ICE cells) created bacterial cells with 100% mucoidal morphology. No sandpaper-like colonies were observed. Individual isolates were collected and re-streaked onto individual LB-Kartamycin/Streptomycin plates for confirmation and future experiments. These results were identical for ICE insertion into AQ30015_strepR , a second streptomycin-resistant strain independently derived from QST 713 with the same genetic mutation in swrA as AQ30002 (data not shown).
- AQ30002_endoPro_. y w'/vf ICE cells included growth in liquid culture to compare the extent of chaining/clumping versus AQ30002 as well as comparing the swarming ability of these strains to AQ30002 using a qualitative assay and a quantitative assay.
- AQ30002_endoPro_i 4 _lCE cells appear cloudy and translucent compared to the highly chained/clumpy nature of AQ30002 when grown in a 14 ml snap cap tube in LB liquid media overnight at 30°C with 250 rpm shaking.
- AQ30002_endoPro_.M7vT_ICE cells are swarming positive unlike the AQ30002 strain ( Figure 7). cells swarm at a rate similar to QST713 in a quantitative swarming assay (data not shown). AQ3001 _endoPro_svw ⁇ ' _ICE cells behaved similarly in all assays (data not shown).
- AQ30002_endoPro_.vw7vf_ICE cells did not colonize the tomato roots as well as the AQ30002 or AQ30002_strepR treatments (see Table 3 and Figure 8).
- the biofilm of the AQ30002_pPen_5M'/vl_ICE treatment seemed to match the biofilm of AQ30002 and
- pellicle a continuous film
- This film consists of microbial cells and a secreted extracellular matrix.
- Pellicles therefore, represent liquid/air interface biofilms.
- pellicle robustness can be ascertained experimentally by poking the pellicles to see if they rupture.
- QST713 wild type swrA* and AQ30002 swrA ' also had similar susceptibility to antibiotics, similar growth patterns at temperatures ranging from 15 °C to 65 °C, similar growth on blood agar, and similar metabolic profiles as detennined with the BioLog Phenotype Microarray technology (Hayward, California) (data not provided).
- Tomato seeds were surface-sterilized with 70% Ethanol and 10% bleach and were then rinsed with sterile deionized water.
- each germinated seed was then placed in a test tube containing 12 ml of sterile MS medium (2.215g L Murashige and Skoog (MS) salts, 1.5% Sucrose, 1% agar, pH 5.7) and allowed to grow for 10 days under light at room temperature. Root colonization was visually observed with a Keyence digital microscope.
- MS medium 2.215g L Murashige and Skoog (MS) salts, 1.5% Sucrose, 1% agar, pH 5.7
- Plug trays (Hummert, catalo number 14-3128) were filled with seed germination mix, and each cell was seeded with one seed. 'Spring Treat Hybrid' corn seeds, 'Derkwin' wheat seeds, and 'QualiT 2 ⁇ tomato seeds were used. Thus, the tests included both monocotyledonous species (i.e., corn and wheat) and dicotyledonous species (i.e., tomato). Each plug tray was then treated with 2 ml of whole broth sample with the untreated controls receiving 2 ml of water. These trays were placed under high-intensity lights (-300 Einsteins, set to a 16- hour light/8-hour dark schedule) at room temperature. Watering was done as needed. No fertilizer was used.
- Tomato, corn and wheat plants were observed for plant growth promotion traits two weeks after drenching the seeds. Then the leaf and root tissues were harvested, dried in paper bags, and weighed. Plants treated with AQ30002 all appeared greener, taller and generally healthier than plants treated with water (see Figures 15, 16, and 17). The dry weights of all plant tissues treated with AQ30002 were significantly higher than those of corresponding tissues from untreated plants with the one exception of corn roots where dry weights were the same (see Figures 18, 19, and 20).
- Example 12 Decrease in Percent Lodging and Lower Incidence of Stalk Rot (Pythium) in Corn Plants Treated with AQ30002 in the Field
- Bacillus sublilis strains QST713 i.e., a mixture of wild type and sandpaperlike cells as found in SERENADE ® , see Figure 4
- AQ30002 swrA ' were grown in a soy- based medium in a bioreactor, formulated to mimic the commercial SERENADE 1 " ASO product, and applied at concentrations equivalent to 3.4 qt acre of commercial product.
- Plant Growth Stimulator (PGS) was applied at 625 ml/acre.
- a Randomized Complete Block (RCB) Design was used with four replicates per treatment. Each replicate represented 4 rows x 30 feet. None of the treated com plants had significantly different yields than the untreated control (data not provided).
- AQ30002 swrA While not envisioned as a treatment for foliar diseases, AQ30002 swrA ' was observed to have activity against the following plant pathogens: Xanihomonas campestri pv. campestris, Colleiotrichum orbiculare (cucumber anthracnose), Botryiis cinerea (botrytis blight of pepper), Sphaerotheca fijliginea (cucumber powdery mildew), Pseudoperonospora c bensis (cucumber downey mildew), Puccinia recondila (wheat leaf rust), Pseudomonas syringae pv. tomato (bacterial speck of tomato), and Bltimeria grantinis f. sp. hordei (barley powdery mildew) (data not provided).
- the QST713 i.e., a mixture of wild type and sandpaper-like cells as found in
- SERENADE ® see Figure 4
- AQ30002 swrA ' strains were grown in bioreactors in a soy- based medium and the whole broths were tested against fythium itltimum and Rhizoclonia solani at 20% concentration.
- the plant pathogens were prepared in a "spawn bag" from Fungi Perfecti containing 200 g of vermiculite and 600 ml of potato dextrose (PD) broth.
- the bag was inoculated with a whole plate of about one week-old Pythium ultimum or Rhizoclonia solani and allowed to grow for one week before use.
- the seed germination mix was moistened with 100 ml of deionized water per liter of mix and then infested at a rate of 8 g inoculum per liter mix for Rhizoclonia solani and 64 g/L mix for Pythium ultimum. The inoculated mix was then placed into 2.5 inch pots. Non- infested mix was also used as an uninfested control (UIC). After infestation and placing the mix into the pots, each pot in each treatment was drenched with 10 ml of its respective treatment.
- UIC uninfested control
- each pot was planted with about 65 Brassica seedlings (variety: 'Johnny's Broccoli for Sprouting,' catalog number 2108) using a calibrated scoop). The pots were saturated with water, placed under high-intensity lights, and allowed to grow for one week before rating.
- the QST713 i.e., a mixture of wild type and sandpaper-like cells as found in SERENADE ® , see Figure 4
- AQ30002 swrA ' strains were grown in bioreactors in a soy- based medium and the whole broths were tested against Phytophthora capsici at 20% concentration.
- the Phytophthora capsici was grown on V-8 agar and allowed to release the zoospores in the sporangia into sterile deionized water. The zoospore concentration was then diluted to 2x lOE4 zoospores/ml for inoculation (10 ml/plant).
- Plug trays (Hummert, catalog number 14-3128) were filled with seed germination mix, and each cell was seeded with one seed. QualiT 2 ⁇ tomato seeds were used. Each plug tray was then treated with 2 ml of whole broth sample with the untreated controls receiving 2 ml of water. These trays were placed under high-intensity lights ( ⁇ 300 Einsteins, set to a 16-hour light 8-hour dark schedule) at room temperature. Watering was done as needed. No fertilizer was used.
- Plug trays (Hummert, catalog number 14-3128) were filled with seed germination mix, and each cell was seeded with one seed. 'QualiT 21 ' tomato seeds will be used. Each plug tray was then treated with 2 ml of whole broth sample with the untreated controls receiving 2 ml of water. These trays were placed under high-intensity lights ( ⁇ 300 Einsteins, set to a 16-hour light 8-hour dark schedule) at room temperature. Watering was done as needed. No fertilizer was used.
- Tomato plants were observed for plant growth promotion traits two weeks after drenching the seeds.
- the results showed that Medium 2 (applied to plants as a control) promoted plant health. Therefore, Applicants were not able to draw definitive conclusions from this assay.
- QST713 i.e., a mixture of wild type and sandpaper-like cells as found in SERE ADE , see Figure 4
- AQ30002 swrA ' strains were grown in Medium 2 (5% peptone, 5% dextrose, 3% yeast extract, 3% malt extract, 1.5% proflo cotton seed extract, 10% soy flour and 0.5% MgSO ⁇ x 7Hi0) and the whole broths were tested against Pythium ultimum and
- Rhizocionia soiani at 20% whole broth concentration.
- the plant pathogens were prepared in a "spawn bag" from Fungi Perfect! (Olympia, Washington) containing 200 g of vermiculite and 600 ml of potato dextrose (PD) broth.
- the bag was with a whole plate of about one week-old Pythium ultimum or Rhizocionia soiani and allowed to grow for one week before use.
- the seed germination mix was moistened with 100 ml of deionized water per liter of mix and then infested at a rate of 8 g inoculum per liter mix for Rhizocionia soiani and 64 g/L mix for Pythium ultimum and was then placed into 2.5 inch pots.
- Non-infested mix was also used as an uninfested control (UlC).
- UlC uninfested control
- each pot in each treatment was drenched with 10 ml of its respective treatment. After drenching, each pot was planted with about 65 Brassica seedlings (Johnny's Broccoli for Sprouting, catalog number 2108) using a calibrated scoop).
- the seeds were covered with a layer of uninfested potting mix, and the pots were placed in a tray with no holes that was flooded with deionized water until all of the pots were saturated with water. The pots were placed under high-intensity lights and allowed to grow for one week before rating.
- the seed flask containing Luria Broth (LB) was inoculated by picking one colony off of the NA plate, and these flasks were set to shake at 30 °C and 200rpm. The next day, 5 ml of the seed flask was inoculated into a soy-based medium.
- Plug trays (Hummert, catalog number 4-3128) were filled with Sunshine #3 potting mix (Sun Gro Horticulture) (moistened and sterilized for one hour, then left to vent for three days), and each cell was seeded with one seed. 'Spring Treat Hybrid' corn seeds,
- the tests included both monocotyledonous species (i.e., corn and wheat) and dicotyledonous species (i.e., tomato).
- Each plug tray was then treated with 2 ml of whole broth sample with the untreated controls receiving 2 ml of water.
- Plug trays were watered from the bottom by flooding a tray with no holes and placing the plug trays inside. These trays were placed under high-intensity lights (-300 Einsleins, set to a 16-hour light 8-hour dark schedule) at room temperature. Watering was done as needed. No fertilizer was used.
- Tomato plants were observed for plant growth promotion traits two weeks after drenching the seeds. The leaf surface area was then quantified.
- the shake flask culture was maintained at a temperature between 30 °C and 32 °C and at a shaker setting of 200 to 220 rpm. After approximately 3 days of incubation, when cell growth and metabolite production had stopped, the culture broth was harvested.
- the treated seeds were allowed to germinate and grow in the greenhouse. Four to five days after treatment (DAT) each tube was inoculated with 100 second-stage juvenile root knot nematodes. 10 DAT the seedlings were scored for percentage root galling on a 0-4 scale, which is described in Table 4.
- the galling index was based on the percentage of root galling.
- the penetration scale was calculated as the mean total number of juvenile nematodes relative to the number of juvenile nematodes in the untreated control (UTC).
- the development scale reflects the total number of fat juvenile nematodes (late J2 stage/ J3 stage) inside the root.
- Figure 34 shows that application of AQ30002 whole broth decreases root galling.
- Figure 35 shows that application of various rates of AQ30002 decrease galling, penetration and development compared to the untreated control. Note that because the data is based on the above rating system it is not always possible to observe a dose response.
- the bioreactor was set at a temperature setting between 30 °C and 32 °C, at an agitation setting of 500 to 1000 rpm, to a pH buffered between 6 and 8, and to an aeration between 0.5 and 1.0 VVM. After approximately 3 days of incubation, when cell growth and metabolite production had stopped, the culture broth was harvested.
- Screening for swrA ' spontaneous mutants from Bacillus sublilis clade strains can be conducted as follows. 250 mL of Luria Broth (LB) liquid media in a 1 liter flask is inoculated with a single colony from a suitable agar plate. This is cultured for 16-20 hours at 30 °C at 200 rpm in an orbital shaker. The resulting culture will be serially diluted to I x 10 3 , 1 x 10 6 , and 1 x 10 9 in phosphate buffered solution and ⁇ of each dilution plated onto suitable agar plate and incubated for 12-16 hours at 37 °C.
- LB Luria Broth
- swrA ' mutants are collected and cultured in LB overnight at 30 °C at 250 rpm. Genomic DNA isolation is performed using the MoBio ultraClean ® Microbial DNA Isolation Kit centrifugation protocol provided with the MoBio Kit. Mutants are identified by PCR and sequencing of the swrA locus, using the genomic DNA isolated above and PCR amplify using PCR primer list below for the Bacillus species specific or general primers that are of interest for the strain being screened.
- Antisense constructs for swrA knockdown in swrA * Bacillus strains may be constnicted by PCR amplifying the reverse complement of the swrA coding region from genomic DNA derived from either QST713 or other swrA* Bacilli.
- PCR primers are designed with restriction enzymes compatible for insertion into previously constructed endoPro_.w/v ⁇ plasmid vector designed to be compatible with the Integrative and Conjugative Element (ICE) element present in Bacillus subtil is MMB869 (Wiep laas Smits and Alan D. Grossman, "The ICE
- TnYLB-1 The ma iner based transposon TnYLB-1 (Le Breton, Y., Mohapatra, N.R., and W.G. Haldenwang, 2006. In Vivo Random Mutagenesis of Bacillus suhtilis by Use of TnYLB-1 , a mariner-Based Transposon, Appl. Environ. Microbiol. 72:327-333) may also be used to generate swrA ' mutants. Due to the presence of the Himar- 1 transposase, mariner recognizes, excises, and inserts itself at two inverted insertion (IS) elements carrying with it any exogenous DNA residing between the IS elements. TnYLB is a modified mariner transposon for use with Bacillus.
- IS inverted insertion
- a kanamycin resistance marker is inserted between the IS elements for rapid selection of integrants.
- the TnYLB is delivered on the plasmid pMarA (Le Breton et al., 2006 - from above).
- insertion commonly generates loss of function mutations due to the disruption of an open reading frame. By screening for loss of swarming ability or sandpaper like colony morphologies and confirmation of transposon insertion at the swrA locus, swrA ' mutant strains can be generated.
- the pMarA plasmid which encodes the mariner IS elements, kanamycin resistant gene, the himarl gene outside the IS elements (to ensure that the element is stable in the genome) is introduced to a swrA* Bacillus strain by electroporation.
- the pMarA plasmid backbone has an mis (Macrolide-Lincosamide-Streptogramin B) resistance gene to ensure loss of the pMarA plasmid following transposition. It has a temperature sensitive origin which allows for mis or kanamycin selection.
- the swrA* Bacillus strain containing the pMarA plasmid is grown in 3 ml LB + mis overnight at room temperature in a roller drum.
- the swrA * Bacillus strain containing the pMarA plasmid is dilution plated onto LB (to determine total colony forming units) and LB with 20 ⁇ g/ml kanamycin (to determine number of transposants) and incubated at 45 °C overnight. Colonies are reslruck onto LB plates with kanamycin and mis plates. Kanmycin resistant/w/s sensitive colonies are retained for further analysis. Potential transposon insertions into the swrA locus have sandpaper-like colony morphology, decreased swarming ability on 0.7% LB agar plates.
- iPCR inverse PCR
- the iPCR products are purified and sequenced with the outward facing amplification primer. Sequence tags are generated for each mutant and blasted against the genomic sequence proximal to the swrA locus. Transposons which contain swrA locus genomic DNA likely disruptive swrA function.
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ES11807827.8T ES2649937T3 (en) | 2010-12-21 | 2011-12-19 | Bacillus sandpaper type mutants and their use procedures to improve plant growth, promote plant health and control diseases and pests |
KR1020137019126A KR20130132555A (en) | 2010-12-21 | 2011-12-19 | Sandpaper mutants of bacillus and methods of their use to enhance plant growth, promote plant health and control diseases and pests |
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AU2011349461A AU2011349461A1 (en) | 2010-12-21 | 2011-12-19 | Sandpaper mutants of Bacillus and methods of their use to enhance plant growth, promote plant health and control diseases and pests |
MX2013007379A MX2013007379A (en) | 2010-12-21 | 2011-12-19 | Sandpaper mutants of bacillus and methods of their use to enhance plant growth, promote plant health and control diseases and pests. |
RU2013133873/10A RU2013133873A (en) | 2010-12-21 | 2011-12-19 | Rough mutants of Bacillus and methods of their application for accelerating the growth of plants, improving the health of plants and combating diseases and pests |
EP11807827.8A EP2654433B1 (en) | 2010-12-21 | 2011-12-19 | Sandpaper mutants of bacillus and methods of their use to enhance plant growth, promote plant health and control diseases and pests |
CA2822296A CA2822296A1 (en) | 2010-12-21 | 2011-12-19 | Sandpaper mutants of bacillus and methods of their use to enhance plant growth, promote plant health and control diseases and pests |
JP2013546296A JP2014507130A (en) | 2010-12-21 | 2011-12-19 | Bacillus sandpaper mutants and their use for promoting plant growth, promoting plant health, and controlling plant diseases and pests |
BR112013015623-6A BR112013015623B1 (en) | 2010-12-21 | 2011-12-19 | COMPOSITION, ITS USE, USE OF MUTANT CELLS FOR SWRA, AND METHOD OF TREATMENT OF A PLANT TO IMPROVE PLANT GROWTH, PROMOTE PLANT HEALTH OR CONTROL A PLANT DISEASE |
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RU2013133873A (en) | 2015-01-27 |
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