WO2023044550A1 - Method for acting upon plants using sequences of extremely low frequencies and guide frequencies - Google Patents

Method for acting upon plants using sequences of extremely low frequencies and guide frequencies Download PDF

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Publication number
WO2023044550A1
WO2023044550A1 PCT/BR2022/050376 BR2022050376W WO2023044550A1 WO 2023044550 A1 WO2023044550 A1 WO 2023044550A1 BR 2022050376 W BR2022050376 W BR 2022050376W WO 2023044550 A1 WO2023044550 A1 WO 2023044550A1
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plants
sequences
frequencies
proteins
stimulating
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PCT/BR2022/050376
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French (fr)
Portuguese (pt)
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Luzo DANTAS JUNIOR
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Dantas Junior Luzo
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Priority to AU2022351991A priority Critical patent/AU2022351991A1/en
Publication of WO2023044550A1 publication Critical patent/WO2023044550A1/en

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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G7/00Botany in general
    • A01G7/04Electric or magnetic or acoustic treatment of plants for promoting growth
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N15/00Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
    • C12N15/01Preparation of mutants without inserting foreign genetic material therein; Screening processes therefor

Definitions

  • the invention BR 10 2019 025958 2 - PRODUCT AND PROCESS FOR ACTING IN BIOLOGICAL ORGANISMS THROUGH EXTREMELY LOW FREQUENCIES of 12/07/2019 reveals a product and process for the use of extremely low frequency sequences for use in organisms. However, said invention does not define specific processes for the use of this procedure in the case of vegetables.
  • the invention US20190223387 - LIGHT CONTROL DEVICE FOR STIMULATING PLANT GROWTH AND METHOD THEREOF of 01/24/2019 discloses a light control device and method for stimulating plant growth.
  • the light control device includes a light source capable of emitting light necessary for plant growth.
  • the light control device further comprises a plurality of light converting films rotatably mounted on a film switching unit disposed around the light source, the film switching unit driven by a motor disposed therein. of light conversion films can still provide a plurality of light spectra required during a plurality of plant growth stages.
  • the light control device determines the growth stage of plants based on the size and height of the plants.
  • the motor rotates the film switching unit, based on the growth stage of the plants, in such a way that a light converting film associated with the growth stage of the plants is positioned in front of the light source.
  • ELF Extremely Low Frequency
  • the invention US3579081A - LOW FREQUENCY SINE WAVE GENERATOR CIRCUIT of 12/11/1968 discloses a sinusoidal signal generator circuit, characterized by the fact that it comprises at least two bridge circuits, each comprising two pairs of control means of bidirectional current connected in series connected across a direct current DC voltage source, each bridge circuit having a pair of output terminals at the junction of the current control means said pairs of current control means at very low frequencies, as 60 cycles per second, being connected directly in series.
  • the current control means allow to produce different rectangular pulse output waveforms at the output terminals of said bridge circuit, each waveform respectively comprising positive and negative pulses of the same amplitude with respect to zero.
  • said invention does not deal with the use of Extremely Low Frequency (ELF) sequences in the range of 0 to 100Hz to act on plants and does not specify molecular targets of plants that are reached by the frequencies produced by the device.
  • ELF Extremely Low Frequency
  • EP2753173 - HERBICIDAL COMPOSITION COMPRISING POLYMERIC MICROPARTICLES CONTAINING A HERBICIDE of 09/13/2012 discloses a berbinoid composition comprising a mixture of: (a) polymeric microparticles containing a first herbicide, in which the first herbicide is an auxin herbicide synthetic (e.g., dicamba, MCPA, or 2,4-D) or an acetolactate synthase (ALS) inhibitor herbicide (e.g., triaulfuron, tribenuron-methyl, iodosulfuron-methyl, mesosulfuron-methyl, sulfosulfuron, flupirulon-methyl, or piroxsulam); wherein the first herbicide, when in a salt-free form and when not contained within polymeric microparticles, antagonizes the herbicidal activity of pinoxaden; and (b) pinoxaden; wherein
  • the invention also provides a method of reducing the antagonistic effect on monocotyledonous weed control in non-oat cereals which is shown by a herbicidal mixture of a synthetic auxin herbicide with a pinoxaden inhibitor herbicide or an ALS inhibitor with pinoxaden, which comprises applying a herbicidal composition according to the invention.
  • the invention also provides a herbicidal composition
  • a herbicidal composition comprising (a) polymeric microparticles (e.g. controlled release matrices), containing a first herbicide as defined above, and: (x) a non-ionic surfactant or (y) a surface-modified clay, as defined here.
  • ELF Extremely Low Frequency
  • [0010] 1 Act on specific sequences of amino acids that make up specific sites of plant proteins.
  • the aim is to alter the natural biological function of the target proteins with the aim of stimulating development and/or inhibiting development and/or modifying the plant's defense mechanisms.
  • the objective of the technique demonstrated here is to inhibit or stimulate biological functions or modify the properties of elements, or chemical compounds, defined in the attack strategies listed above through the application of sequences of extremely low frequencies and a set of predefined driving frequencies .
  • the form of action developed and revealed in this technique is based on the application of the technique of sequences of extremely low frequencies, that is, frequencies in the open interval between 0 and 100 Hertz (limits not included).
  • Each set of frequency sequences is composed of one or more targets and one or more drivers specific to each plant species and/or its variations and mutations. This makes this plant-specific and application-specific set of functions biological and/or physiological properties chosen in them.
  • This invention discloses such application processes which are illustrated in the figure.
  • Each target and driver combination is designed to define a mathematically unique solution.
  • this invention makes use of one or more previously determined frequency sequences (each with a target and driver determining a single solution) and validated in the laboratory, to generate a decrease or increase in the interatomic distance of chemical elements that form the target amino acids, altering the conformation of the protein in question and consequently its biological function.
  • this invention makes use of one or more previously determined frequency sequences (each with a target and driver determining a single solution) and validated in the laboratory, to generate a decrease or increase in the interatomic distance of chemical elements that form the target nucleotides, altering the conformation of these nucleotides and consequently their biological function.
  • this invention makes use of one or more previously determined frequency sequences (each with a target and driver determining a single solution) and validated in the laboratory, to generate a decrease or increase in the interatomic distance of chemical elements and/or chemical compounds (such as hormones, lipids and neurotransmitters, among others) target, altering their conformation and consequently their properties and/or biological functions.
  • chemical elements and/or chemical compounds such as hormones, lipids and neurotransmitters, among others
  • a first preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzyme acetyl-coenzyme-A Carboxylase (ACCase) of plants.
  • strategy 1 acting on amino acids
  • the sequences of frequencies will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme acetyl-coenzyme-A Carboxylase (ACCase) of plants.
  • acetyl-coenzyme-A Carboxylase acetyl-coenzyme-A Carboxylase
  • a second preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzyme acetolactate synthase (ALS) in plants ( Figure 2).
  • the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme acetolactate synthase (ALS) in plants.
  • the action of the enzyme acetolactate synthase (ALS) in plants will be stimulated, prevented or hindered, causing stimulation or inhibition of the biosynthesis of the branched-chain aliphatic amino acids leucine (Leu), valine (Vai) and isoleucine (lie) of plants.
  • a third preferred modality deals with the application of strategy 3 (acting on hormone) which targets the Auxin hormone of plants.
  • strategy 3 acting on hormone
  • the frequency sequences will act according to their directing frequencies on the chemical sequence that form the different possibilities of the active site of the Auxin hormone in plants.
  • the biological function of the Auxin hormone in the plants will be stimulated, prevented or hindered, causing stimulation or inhibition in the growth of the plants.
  • a fourth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzymes that participate in the biosynthesis of carotenoids in plants.
  • the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzymes of the enzymes that participate in the biosynthesis of plant carotenoids.
  • the action of the enzymes that participate in the biosynthesis of carotenoids will be stimulated, prevented or hindered, causing stimulation or inhibition of the photodegradation of chlorophyll.
  • a fifth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the protein called tubulin in plants.
  • strategy 1 acting on amino acids
  • the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of plant tubulin.
  • a sixth preferred modality deals with the application of the strategy 1 (acting on amino acids) which targets the amino acid sequences (figure 3) of the enzyme 5-enolpyruvylshikimate-3-phosphate synthase (EPSPs) in plants.
  • the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme 5-enolpyruvylshikimate-3-phosphate synthase (EPSPs) of plants.
  • EPPs 5-enolpyruvylshikimate-3-phosphate synthase
  • a seventh preferred modality deals with the application of strategy 1 and 3 together or separately (1: action on amino acids; 3: action on chemical elements and/or chemical compounds) which targets the binding of the chemical molecule plastoquinone to protein D1 in Photosystem II of plants.
  • the sequences of frequencies will act according to their driving frequencies on the chemical sequences that form the plastoquinone molecule and on the chemical sequences that form the different possibilities of active site (binding site) of protein D1 in Photosystem II of plants.
  • the binding of the chemical molecule plastoquinone to protein D1 in Photosystem II of plants will be stimulated or inhibited, causing inhibition or stimulation of the flow of electrons in Photosystem II.
  • An eighth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzyme glutamine synthetase (GS) of plants ( Figure 4).
  • strategy 1 acting on amino acids
  • the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme glutamine synthetase (GS) in plants.
  • the action of the enzyme glutamine synthetase (GS) in plants will be stimulated, prevented or hindered, causing stimulation or inhibition of its biological action in the pathways of nitrogen and ammonium assimilation, amino acid synthesis, photorespiration and prevention of inhibition.
  • Inhibition of the glutamine synthetase (GS) enzyme in plants results in ammonium accumulation and subsequent plant death.
  • a ninth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzyme protoporphyrinogen oxidase (PROTOX) of plants.
  • strategy 1 acting on amino acids
  • the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme protoporphyrinogen oxidase (PROTOX) of plants.
  • the action of the protoporate enzyme will be stimulated, prevented or hindered.
  • protoporphyrinogen oxidase of plants, causing stimulation or inhibition of its biological action of protoporphyrinogen oxidation in protoporphyrin IX, which is a precursor of chlorophyll and heme groups (necessary for electron transfer). Inhibition of the enzyme protoporphyrinogen oxidase (PROTOX) in plants results in oxidation of lipids and proteins in the cell cytoplasm and consequent plant death.
  • a tenth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences, in whole or in part, that make up the proteins of the cellular respiration complex.
  • strategy 1 acting on amino acids
  • the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the active site (binding site) of the aforementioned proteins.
  • cellular respiration of plants will be inhibited, impeded or hindered, totally or partially.
  • An eleventh preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences, in whole or in part, that make up the proteins that act in the synthesis of amino acids and proteins.
  • the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the active site (binding site) of the proteins that act in the synthesis of amino acids and plant proteins. As a consequence of this action, the synthesis of amino acids and plant proteins will be prevented or hindered.

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  • Life Sciences & Earth Sciences (AREA)
  • Genetics & Genomics (AREA)
  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Wood Science & Technology (AREA)
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Abstract

A method is disclosed for acting upon chemical elements and combinations thereof, including plant proteins, DNA, RNA, hormones and neurotransmitters, by transmitting target-defined sequences of extremely low frequencies and sets of specific guide elements that will act upon given plant amino acid and/or nucleotide sequences, inter alia. The intended effect is achieved by strengthening or weakening the bonds between the chemical elements and combinations thereof, including the elements that make up the plant nucleotides, amino acids, hormones and neurotransmitters, inter alia.

Description

PROCESSO PARA ATUAÇÃO EM PLANTAS POR MEIO DE SEQUÊNCIAS DE FREQUÊNCIAS EXTREMAMENTE BAIXAS E FREQUÊNCIAS PROCESS FOR ACTIVATION IN PLANTS THROUGH EXTREMELY LOW FREQUENCY SEQUENCES AND FREQUENCIES
DIRECIONADORAS GUIDELINES
RELATÓRIO DESCRITIVO DESCRIPTION REPORT
CAMPO DA INVENÇÃO FIELD OF THE INVENTION
[0001] Processo para atuação em elementos químicos e suas combinações, incluindo proteínas, DNA, RNA, hormônios e neurotransmissores das plantas por meio da transmissão de sequências de frequências extremamente baixas definidas a partir de alvos e conjunto de direcionadores específicos que atuarão sobre determinadas sequências de aminoácidos e/ou nucleotídeos, entre outros, das plantas. O efeito desejado é conseguido fortalecendo ou atenuando as ligações entre os elementos químicos e suas combinações, incluindo os elementos constituintes dos nucleotídeos, aminoácidos, hormônios e neurotransmissores, entre outros, relacionados as plantas. [0001] Process for acting on chemical elements and their combinations, including proteins, DNA, RNA, hormones and neurotransmitters from plants through the transmission of extremely low frequency sequences defined from targets and a set of specific drivers that will act on certain sequences of amino acids and/or nucleotides, among others, from plants. The desired effect is achieved by strengthening or attenuating the bonds between chemical elements and their combinations, including constituent elements of nucleotides, amino acids, hormones and neurotransmitters, among others, related to plants.
ANTERIORIEDADES PREVIOUS
[0002] De forma geral o grau de variedade de espécies e de mutações genéticas das plantas, torna bastante complexo e oneroso definir solução para a eliminação ou redução do impacto desses sobre a produtividade das lavouras. Existem atualmente disponíveis dois tipos mais comuns de soluções para controle crescimento das plantas: químico e biológico. Ambos têm sido usados, mas podem apresentar efeitos não desejáveis tais como, efeitos colaterais diversos em humanos, deixar resíduos nos alimentos de origem vegetal e animal (com o potencial de causar doenças em humanos e animais), contaminação de solos, rios, lagos e lençóis freáticos, intoxicação de profissionais que aplicam os produtos na lavoura, entre outros. Além disso, podem vir a ter baixa eficiência em face das mutações frequentes das plantas e alta pressão de seleção de populações resistentes aos produtos químicos. [0003] A invenção depositada em 30/10/2018, sob número BR102017023442-8 e título "Produto e Processo para Geração de Frequências Extremamente Baixas para Equalização Química" descreve um processo e produto para equalização química, baseia-se na transmissão de frequências que atuarão na equalização de elementos químicos ou uma substância, proporcionando, consequentemente, o ajuste de fortalecimento ou atenuação de suas propriedades e características físico-químicas conforme desejado, melhorando a qualidade, aumentando produtividade e eficiência de processos industriais. [0002] In general, the degree of variety of species and genetic mutations of plants makes it quite complex and costly to define a solution for eliminating or reducing their impact on crop productivity. There are currently two most common types of solutions available for controlling plant growth: chemical and biological. Both have been used, but can have undesirable effects such as various side effects in humans, leaving residues in food of plant and animal origin (with the potential to cause disease in humans and animals), contamination of soils, rivers, lakes and water tables, intoxication of professionals who apply the products in the field, among others. In addition, they may have low efficiency in the face of frequent plant mutations and high selection pressure for populations resistant to chemical products. [0003] The invention filed on 10/30/2018, under number BR102017023442-8 and entitled "Product and Process for Generating Extremely Low Frequencies for Chemical Equalization" describes a process and product for chemical equalization, based on the transmission of frequencies that will act in the equalization of chemical elements or a substance, providing, consequently, the adjustment of strengthening or attenuation of its properties and physical-chemical characteristics as desired, improving quality, increasing productivity and efficiency of industrial processes.
[0004] Ao fortalecer as propriedades e características físico-químicas de um elemento, possibilita-se a utilização do mesmo em dosagens significativamente menores, sem, contudo, impactar os resultados obtidos. Essa invenção, no entanto, não possui a estrutura de direcionadores, capaz de guiar as sequências de frequências para alvos específicos nem tão pouco a capacidade de atuar sobre organismos biológicos. [0004] By strengthening the physical-chemical properties and characteristics of an element, it is possible to use it in significantly smaller dosages, without, however, impacting the results obtained. This invention, however, does not have the structure of directors, capable of guiding the frequency sequences to specific targets, nor the ability to act on biological organisms.
[0005] A invenção BR 10 2019 025958 2 - PRODUTO E PROCESSO PARA ATUAÇÃO EM ORGANISMOS BIOLÓGICOS POR MEIO DE FREQUÊNCIAS EXTREMAMENTE BAIXAS de 07/12/2019 revela um produto e processo de uso de sequências de frequências extremamente baixas para uso em organismos. No entanto a referida invenção não define processos específicos para o uso desse procedimento no caso dos vegetais. [0005] The invention BR 10 2019 025958 2 - PRODUCT AND PROCESS FOR ACTING IN BIOLOGICAL ORGANISMS THROUGH EXTREMELY LOW FREQUENCIES of 12/07/2019 reveals a product and process for the use of extremely low frequency sequences for use in organisms. However, said invention does not define specific processes for the use of this procedure in the case of vegetables.
[0006] A invenção US20190223387 - LIGHT CONTROL DEVICE FOR STIMULATING PLANT GROWTH AND METHOD THEREOF de 24/01 /2019 revela um dispositivo de controle de luz e método para estimular o crescimento de plantas. O dispositivo de controle de luz inclui uma fonte de luz capaz de emitir luz necessária para o crescimento de plantas. O dispositivo de controle de luz compreende ainda uma pluralidade de filmes de conversão de luz rotativamente montados sobre uma unidade de comutação de filme disposta em torno da fonte de luz, a unidade de comutação de filme acionada por um motor disposto no seu interior.A pluralidade de filmes de conversão de luz pode proporcionar ainda uma pluralidade de espectros de luz requeridos durante uma pluralidade de estágios de crescimento de plantas. O dispositivo de controle de luz determina o estágio de crescimento de plantas com base no tamanho e na altura das plantas. O motor gira a unidade de comutação de filme, com base no estágio de crescimento das plantas, de tal maneira que uma película de conversão de luz associada com o estágio de crescimento das plantas é posicionada em frente da fonte de luz. Tal posicionamento estimula o crescimento da planta. No entanto a referida invenção não trata da utilização de sequências de Frequências Extremamente Baixas (ELF) na faixa de 0 a 100Hz, e não especifica os alvos moleculares das plantas que são atingidos pelas frequências transferidas através da luz. [0006] The invention US20190223387 - LIGHT CONTROL DEVICE FOR STIMULATING PLANT GROWTH AND METHOD THEREOF of 01/24/2019 discloses a light control device and method for stimulating plant growth. The light control device includes a light source capable of emitting light necessary for plant growth. The light control device further comprises a plurality of light converting films rotatably mounted on a film switching unit disposed around the light source, the film switching unit driven by a motor disposed therein. of light conversion films can still provide a plurality of light spectra required during a plurality of plant growth stages. The light control device determines the growth stage of plants based on the size and height of the plants. The motor rotates the film switching unit, based on the growth stage of the plants, in such a way that a light converting film associated with the growth stage of the plants is positioned in front of the light source. Such placement stimulates plant growth. However, said invention does not deal with the use of Extremely Low Frequency (ELF) sequences in the range from 0 to 100Hz, and does not specify the molecular targets of plants that are reached by the frequencies transferred through light.
[0007] A invenção US3579081A - LOW FREQUENCY SINE WAVE GENERATOR CIRCUIT de 12/11/1968 revela um circuito gerador de sinal senoidal, caracterizado pelo fato de que compreende pelo menos dois circuitos de ponte, cada um compreendendo dois pares de meios de controle de corrente bidirecional conectados em série conectados através de uma fonte de tensão DC de corrente contínua, cada circuito de ponte tendo um par de terminais de saída na junção dos meios de controle de corrente os referidos pares de meios de controle de corrente em frequências muito baixas, como 60 ciclos por segundo, sendo conectados diretamente em série. Os meios de controle de corrente permitem produzir diferentes formas de onda de saída de pulso retangular nos terminais de saída do referido circuito de ponte, cada forma de onda respectivamente compreendendo pulsos positivos e negativos de mesma amplitude em relação a zero. No entanto a referida invenção não trata da utilização de sequências de Frequências Extremamente Baixas (ELF) na faixa de 0 a 100Hz para atuação em plantas e não especifica alvos moleculares das plantas que são atingidos pelas frequências produzidas pelo dispositivo. [0007] The invention US3579081A - LOW FREQUENCY SINE WAVE GENERATOR CIRCUIT of 12/11/1968 discloses a sinusoidal signal generator circuit, characterized by the fact that it comprises at least two bridge circuits, each comprising two pairs of control means of bidirectional current connected in series connected across a direct current DC voltage source, each bridge circuit having a pair of output terminals at the junction of the current control means said pairs of current control means at very low frequencies, as 60 cycles per second, being connected directly in series. The current control means allow to produce different rectangular pulse output waveforms at the output terminals of said bridge circuit, each waveform respectively comprising positive and negative pulses of the same amplitude with respect to zero. However, said invention does not deal with the use of Extremely Low Frequency (ELF) sequences in the range of 0 to 100Hz to act on plants and does not specify molecular targets of plants that are reached by the frequencies produced by the device.
[0008] A invenção EP2753173 - HERBICIDAL COMPOSITION COMPRISING POLYMERIC MICROPARTICLES CONTAINING A HERBICIDE de 13/09/2012 revela composição berbicóide compreendendo uma mistura de: (a) micropartículas poliméricas contendo um primeiro herbicida, em que o primeiro herbicida é um herbicida de auxina sintética (por Exemplo, dicamba, MCPA ou 2,4-D) ou um Herbicida inibidor de ace- tolactato sintase (ALS) (por exemplotriaulfuron, tribenuron-metil, iodosulfuron-metil, mesosulfuron-metil, sulfosulfuron, flupirulon-metil, ou piroxsulam); em que o primeiro herbicida, quando em forma isenta de sal e quando não contido dentro de micropartícu- las poliméricas, antagoniza a atividade herbicida de pinoxaden; e (b) pinoxaden; em que as micropartículas poliméricas são matrizes de libertação controlada, dentro da qual é o primeiro herbicida e que funcionam de tal modo a controlar e/ou retardar a liberação do primeiro herbicida das micropartículas poliméricas em um meio líquido (por exemplo, aquoso) quando as micropartículas poliméricas são colocadas (por exemplo, dispersas) em contato com o meio líquido acredita-se que a contenção do primeiro herbicida dentro das micropartículas poliméricas de libertação controlada mitiga o antagonismo da atividade herbicida gramínea-erva daninha de pinoxaden que pode, de outra forma, ser causada pelo primeiro herbicida, dependendo das circunstâncias. A invenção também proporciona um método de redução do efeito antagonístico sobre o controle das ervas daninhas monocotiledôneas em cereais não-aveia que é mostrado por uma mistura herbicida de um herbicida de auxina sintética com um herbicida inibidor de pinoxaden ou um inibidor de ALS com pinoxaden, que compreende a aplicação de uma composição herbicida de acordo com a invenção. A invenção também fornece uma composição herbicida compreendendo (a) micropartículas poliméricas (por exemplo, matrizes de liberação controlada), contendo um primeiro herbicida como definido acima, e: (x) um tensoativo não iônico ou (y) uma argila modificada na superfície, como definido aqui. No entanto a referida invenção não trata da utilização de sequências de Frequências Extremamente Baixas (ELF) na faixa de 0 a 100Hz com a finalidade de atuação herbicida, sendo utilizado moléculas químicas para tal finalidade. DESCRIÇÃO GERAL [0008] The invention EP2753173 - HERBICIDAL COMPOSITION COMPRISING POLYMERIC MICROPARTICLES CONTAINING A HERBICIDE of 09/13/2012 discloses a berbinoid composition comprising a mixture of: (a) polymeric microparticles containing a first herbicide, in which the first herbicide is an auxin herbicide synthetic (e.g., dicamba, MCPA, or 2,4-D) or an acetolactate synthase (ALS) inhibitor herbicide (e.g., triaulfuron, tribenuron-methyl, iodosulfuron-methyl, mesosulfuron-methyl, sulfosulfuron, flupirulon-methyl, or piroxsulam); wherein the first herbicide, when in a salt-free form and when not contained within polymeric microparticles, antagonizes the herbicidal activity of pinoxaden; and (b) pinoxaden; wherein the polymeric microparticles are controlled release matrices within which is the first herbicide and which function to control and/or delay the release of the first herbicide from the polymeric microparticles into a liquid (e.g. aqueous) medium when the polymeric microparticles are placed (e.g., dispersed) in contact with the liquid medium, it is believed that containment of the first herbicide within the controlled release polymeric microparticles mitigates the antagonism of pinoxaden's grass-weed herbicidal activity that may otherwise , be caused by the first herbicide, depending on the circumstances. The invention also provides a method of reducing the antagonistic effect on monocotyledonous weed control in non-oat cereals which is shown by a herbicidal mixture of a synthetic auxin herbicide with a pinoxaden inhibitor herbicide or an ALS inhibitor with pinoxaden, which comprises applying a herbicidal composition according to the invention. The invention also provides a herbicidal composition comprising (a) polymeric microparticles (e.g. controlled release matrices), containing a first herbicide as defined above, and: (x) a non-ionic surfactant or (y) a surface-modified clay, as defined here. However, said invention does not deal with the use of Extremely Low Frequency (ELF) sequences in the range from 0 to 100Hz for the purpose of herbicidal action, chemical molecules being used for this purpose. GENERAL DESCRIPTION
[0009] Devido às lacunas encontradas no estado da técnica de uso de sequências de frequências extremamente baixas para lidar especificamente com as plantas, fez-se necessário o desenvolvimento de uma nova técnica como revelado a seguir. No caso de plantas podemos prever até três estratégias principais de ataque: [0009] Due to the gaps found in the state of the art of using extremely low frequency sequences to deal specifically with plants, it was necessary to develop a new technique as shown below. In the case of plants, we can predict up to three main attack strategies:
[0010] 1 . Atuar sobre sequências específicas de aminoácidos que compõem sítios específicos das proteínas das plantas. Nesse caso busca-se alterar a função biológica natural das proteínas alvo com o objetivo de estimular o desenvolvimento e/ou inibir o desenvolvimento e/ou modificar os mecanismos de defesa da planta. [0010] 1 . Act on specific sequences of amino acids that make up specific sites of plant proteins. In this case, the aim is to alter the natural biological function of the target proteins with the aim of stimulating development and/or inhibiting development and/or modifying the plant's defense mechanisms.
[0011] 2. Atuar sobre sequências de nucleotídeos de forma a inibir ou estimular a expressão gênica de proteínas importantes para processos fisiológicos essenciais para a vida, multiplicação e/ou defesa das plantas. [0011] 2. Act on nucleotide sequences in order to inhibit or stimulate the gene expression of important proteins for essential physiological processes for life, multiplication and/or defense of plants.
[0012] 3. Atuar sobre elementos outros componentes das plantas, como hormônios, lipídios e neurotransmissores, entre outros a partir dos elementos químicos e/ou compostos químicos específicos e ou suas combinações para cada planta ou grupo de planta, incluindo suas variações e/ou mutações, de forma a estimular ou inibir, totalmente ou parcialmente, sua função biológica. Todas essas estratégias de atuação utilizam a mesma técnica aqui utilizada. [0012] 3. Act on elements and other components of plants, such as hormones, lipids and neurotransmitters, among others based on chemical elements and/or specific chemical compounds and/or their combinations for each plant or group of plants, including their variations and/ or mutations, in order to stimulate or inhibit, totally or partially, its biological function. All these action strategies use the same technique used here.
[0013] O objetivo da técnica aqui demonstrada é inibir ou estimular funções biológicas ou modificar as propriedades dos elementos, ou compostos químicos, definidos nas estratégias de ataque listadas acima mediante a aplicação de sequências de frequências extremamente baixa e conjunto de frequências direcionadoras pré-definidas. [0013] The objective of the technique demonstrated here is to inhibit or stimulate biological functions or modify the properties of elements, or chemical compounds, defined in the attack strategies listed above through the application of sequences of extremely low frequencies and a set of predefined driving frequencies .
[0014] A forma de atuação desenvolvida e revelada nessa técnica é baseada na aplicação da técnica de sequências de frequências extremamente baixas, ou seja, frequências no intervalo aberto entre 0 e 100 Hertz (limites não incluídos). Cada conjunto de sequências de frequências é composto de um ou mais alvos e um ou mais direcionadores específicos para cada espécie de planta e/ou suas variações e mutações. Isso torna esse conjunto de aplicação específica de planta e de funções biológicas e/ou fisiológicas escolhidas nos mesmos. Essa invenção revela esses processos de aplicação que são ilustrados na figurai . Cada combinação de alvo e direcionador é concebida para definir uma solução matematicamente única. [0014] The form of action developed and revealed in this technique is based on the application of the technique of sequences of extremely low frequencies, that is, frequencies in the open interval between 0 and 100 Hertz (limits not included). Each set of frequency sequences is composed of one or more targets and one or more drivers specific to each plant species and/or its variations and mutations. This makes this plant-specific and application-specific set of functions biological and/or physiological properties chosen in them. This invention discloses such application processes which are illustrated in the figure. Each target and driver combination is designed to define a mathematically unique solution.
[0015] No caso 1 , acima, essa invenção faz uso de uma ou mais sequências de frequências previamente determinadas (cada uma com alvo e direcionador determinando solução única) e validadas em laboratório, para gerar a diminuição ou aumento da distância interatômica dos elementos químicos que formam os aminoácidos alvo, alterando a conformação da proteína em questão e consequentemente sua função biológica. [0015] In case 1, above, this invention makes use of one or more previously determined frequency sequences (each with a target and driver determining a single solution) and validated in the laboratory, to generate a decrease or increase in the interatomic distance of chemical elements that form the target amino acids, altering the conformation of the protein in question and consequently its biological function.
[0016] No caso 2, acima, essa invenção faz uso de uma ou mais sequências de frequências previamente determinadas (cada uma com alvo e direcionador determinando solução única) e validadas em laboratório, para gerar a diminuição ou aumento da distância interatômica dos elementos químicos que formam os nucleotídeos alvo, alterando a conformação destes nucleotídeos e consequentemente sua função biológica. [0016] In case 2, above, this invention makes use of one or more previously determined frequency sequences (each with a target and driver determining a single solution) and validated in the laboratory, to generate a decrease or increase in the interatomic distance of chemical elements that form the target nucleotides, altering the conformation of these nucleotides and consequently their biological function.
[0017] No caso 3, acima, essa invenção faz uso de uma ou mais sequências de frequências previamente determinadas (cada uma com alvo e direcionador determinando solução única) e validadas em laboratório, para gerar a diminuição ou aumento da distância interatômica dos elementos químicos e/ou compostos químicos (tais como hormônios, lipídios e neurotransmissores, entre outros) alvo, alterando a conformação desses e consequentemente suas propriedades e/ou funções biológicas. [0017] In case 3, above, this invention makes use of one or more previously determined frequency sequences (each with a target and driver determining a single solution) and validated in the laboratory, to generate a decrease or increase in the interatomic distance of chemical elements and/or chemical compounds (such as hormones, lipids and neurotransmitters, among others) target, altering their conformation and consequently their properties and/or biological functions.
[0018] As três estratégias descritas acima podem ser usadas individualmente e/ou concomitantemente numa mesma implementação da técnica aqui revelada. [0018] The three strategies described above can be used individually and/or concomitantly in the same implementation of the technique disclosed here.
MODALIDADES PREFERIDAS PREFERRED MODALITIES
[0019] Uma primeira modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácidos) que tem como alvo as sequências de aminoácidos da enzima acetil-coenzima-A Carboxilase (ACCase) das plantas. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam as diferentes possibilidades de sítio ativo (sítio de ligação) da enzima acetil-coenzima-A Carboxilase (ACCase) das plantas. Como consequência dessa atuação, ficará estimulada, impedida ou dificultada a ação da enzima acetil-coenzima-A Carboxilase (ACCase) das plantas, causando estímulo ou inibição da síntese de ácidos graxos, que são constituintes dos lipídios que ocorrem nas membranas de células e organelas das plantas. [0019] A first preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzyme acetyl-coenzyme-A Carboxylase (ACCase) of plants. In that case the sequences of frequencies will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme acetyl-coenzyme-A Carboxylase (ACCase) of plants. As a consequence of this action, the action of the enzyme acetyl-coenzyme-A Carboxylase (ACCase) of plants will be stimulated, prevented or hindered, causing stimulation or inhibition of the synthesis of fatty acids, which are constituents of lipids that occur in the membranes of cells and organelles of the plants.
[0020] Uma segunda modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácidos) que tem como alvo as sequências de aminoácidos da enzima acetolactato sintase (ALS) das plantas (Figura 2). Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam as diferentes possibilidades de sítio ativo (sítio de ligação) da enzima acetolactato sintase (ALS) das plantas. Como consequência dessa atuação, ficará estimulada, impedida ou dificultada a ação da enzima acetolactato sintase (ALS) das plantas, causando estímulo ou inibição da biossíntese dos aminoácidos alifáticos de cadeia ramificada leucina (Leu), valina (Vai) e isoleucina (lie) das plantas. [0020] A second preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzyme acetolactate synthase (ALS) in plants (Figure 2). In this case, the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme acetolactate synthase (ALS) in plants. As a consequence of this action, the action of the enzyme acetolactate synthase (ALS) in plants will be stimulated, prevented or hindered, causing stimulation or inhibition of the biosynthesis of the branched-chain aliphatic amino acids leucine (Leu), valine (Vai) and isoleucine (lie) of plants.
[0021 ] Uma terceira modalidade preferida trata da aplicação da estratégia 3 (atuação sobre hormônio) que tem como alvo o hormônio Auxina das plantas. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre a sequência química que formam as diferentes possibilidades de sítio ativo do hormônio Auxina das plantas. Como consequência dessa atuação, ficará estimulada, impedida ou dificultada a função biológica do hormônio Auxina das plantas, causando estímulo ou inibição no crescimento das plantas. [0021] A third preferred modality deals with the application of strategy 3 (acting on hormone) which targets the Auxin hormone of plants. In this case, the frequency sequences will act according to their directing frequencies on the chemical sequence that form the different possibilities of the active site of the Auxin hormone in plants. As a consequence of this action, the biological function of the Auxin hormone in the plants will be stimulated, prevented or hindered, causing stimulation or inhibition in the growth of the plants.
[0022] Uma quarta modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácidos) que tem como alvo as sequências de aminoácidos das enzimas que participam da biossíntese de carotenóides das plantas. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam as diferentes possibilidades de sítio ativo (sítio de ligação) das enzimas das enzimas que participam da biossíntese de carotenóides das plantas. Como consequência dessa atuação, ficará estimulada, impedida ou dificultada a ação das enzimas que participam da biossíntese de carotenóides, causando estímulo ou inibição da fotodegradação da clorofila. [0022] A fourth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzymes that participate in the biosynthesis of carotenoids in plants. In this case, the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzymes of the enzymes that participate in the biosynthesis of plant carotenoids. As a consequence of this action, the action of the enzymes that participate in the biosynthesis of carotenoids will be stimulated, prevented or hindered, causing stimulation or inhibition of the photodegradation of chlorophyll.
[0023] Uma quinta modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácido) que tem como alvo as sequências de aminoácidos da proteína denominada tubulina das plantas. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam as diferentes possibilidades de sítio ativo (sítio de ligação) da tubulina das plantas. Como consequência dessa atuação, ficará estimulada, impedida ou dificultada a ação da tubulina das plantas, causando estímulo ou inibição da polimerização da tubulina, estimulando ou dificultando a divisão celular (mitose) das plantas [0024] Uma sexta modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácidos) que tem como alvo as sequências de aminoácidos (figura 3) da enzima 5-enolpiruvilshikimate-3-fosfato sintase (EPSPs) das plantas. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam as diferentes possibilidades de sítio ativo (sítio de ligação) da enzima 5-enolpiruvilshikimate-3-fosfato sintase (EPSPs) das plantas. Como consequência dessa atuação, ficará estimulada, impedida ou dificultada a ação da 5-enolpiruvilshikimate-3-fosfato sintase (EPSPs) das plantas, causando estímulo ou inibição da síntese dos aminoácidos aromáticos essenciais fenilalanina, tirosina e triptofano, que são precursores de outros produtos, como lignina, alcalóides, flavonóides e ácidos benzóicos, essenciais para o desenvolvimento da planta. [0023] A fifth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the protein called tubulin in plants. In this case, the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of plant tubulin. As a consequence of this action, the action of tubulin in plants will be stimulated, prevented or hindered, causing stimulation or inhibition of tubulin polymerization, stimulating or hindering plant cell division (mitosis) [0024] A sixth preferred modality deals with the application of the strategy 1 (acting on amino acids) which targets the amino acid sequences (figure 3) of the enzyme 5-enolpyruvylshikimate-3-phosphate synthase (EPSPs) in plants. In this case, the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme 5-enolpyruvylshikimate-3-phosphate synthase (EPSPs) of plants. As a consequence of this action, the action of 5-enolpyruvylshikimate-3-phosphate synthase (EPSPs) in plants will be stimulated, prevented or hindered, causing stimulation or inhibition of the synthesis of essential aromatic amino acids phenylalanine, tyrosine and tryptophan, which are precursors of other products , such as lignin, alkaloids, flavonoids and benzoic acids, essential for plant development.
[0025] Uma sétima modalidade preferida trata da aplicação da estratégia 1 e 3 em conjunto ou separadamente (1 : atuação sobre aminoácidos; 3: atuação sobre elementos químicos e/ou compostos químicos) que tem como alvo a ligação da molécula química plastoquinona a proteína D1 no Fotossistema II das plantas. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências químicas que formam a molécula plastoquinona e sobre as sequências químicas que formam as diferentes possibilidades de sítio ativo (sítio de ligação) da proteína D1 no Fotossistema II das plantas. Como consequência dessa atuação, ficará estimulada ou inibida a ligação da molécula química plastoquinona a proteína D1 no Fotossistema II das plantas, causando inibição ou estimulação do fluxo de elétrons no Fotossistema II. No caso de inibição da ligação entre plastoquinona e proteína D1 , ocorre consequentemente a formação de radicais livres, que geram peroxidação de lipídeos na membrana celular e morte das células. No caso de estímulo, ocorre aceleração do processo de transferência de elétrons, gerando maior taxa de fotossíntese. [0026] Uma oitava modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácidos) que tem como alvo as sequências de aminoácidos da enzima glutamina sintetase (GS) das plantas (Figura 4). Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam as diferentes possibilidades de sítio ativo (sítio de ligação) da enzima glutamina sintetase (GS) das plantas. Como consequência dessa atuação, ficará estimulada, impedida ou dificultada a ação da enzima glutamina sintetase (GS) das plantas, causando estímulo ou inibição da sua ação biológica nas vias de assimilação de nitrogênio, de amónio, síntese de aminoácidos, fotorrespiração e prevenção da inibição da enzima ribulose-1 , 5-biofosfato carboxilase (RUBISCO), essencial para fixação de carbono. A inibição da enzima glutamina sintetase (GS) das plantas resulta em acúmulo de amónio e consequente morte da planta. [0025] A seventh preferred modality deals with the application of strategy 1 and 3 together or separately (1: action on amino acids; 3: action on chemical elements and/or chemical compounds) which targets the binding of the chemical molecule plastoquinone to protein D1 in Photosystem II of plants. In this case, the sequences of frequencies will act according to their driving frequencies on the chemical sequences that form the plastoquinone molecule and on the chemical sequences that form the different possibilities of active site (binding site) of protein D1 in Photosystem II of plants. As a consequence of this action, the binding of the chemical molecule plastoquinone to protein D1 in Photosystem II of plants will be stimulated or inhibited, causing inhibition or stimulation of the flow of electrons in Photosystem II. In the case of inhibition of the connection between plastoquinone and D1 protein, the formation of free radicals consequently occurs, which generate peroxidation of lipids in the cell membrane and cell death. In the case of stimulation, acceleration of the electron transfer process occurs, generating a higher rate of photosynthesis. [0026] An eighth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzyme glutamine synthetase (GS) of plants (Figure 4). In this case, the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme glutamine synthetase (GS) in plants. As a consequence of this action, the action of the enzyme glutamine synthetase (GS) in plants will be stimulated, prevented or hindered, causing stimulation or inhibition of its biological action in the pathways of nitrogen and ammonium assimilation, amino acid synthesis, photorespiration and prevention of inhibition. of the enzyme ribulose-1, 5-biophosphate carboxylase (RUBISCO), essential for carbon fixation. Inhibition of the glutamine synthetase (GS) enzyme in plants results in ammonium accumulation and subsequent plant death.
[0027] Uma nona modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácidos) que tem como alvo as sequências de aminoácidos da enzima protoporfirinogenio oxidase (PROTOX) das plantas. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam as diferentes possibilidades de sítio ativo (sítio de ligação) da enzima protoporfirinogenio oxidase (PROTOX) das plantas. Como consequência dessa atuação, ficará estimulada, impedida ou dificultada a ação da enzima protopor- firinogenio oxidase (PROTOX) das plantas, causando estímulo ou inibição da sua ação biológica de oxidação da protoporfirinogênio em protoporfirina IX, que é precursor de clorofila e de grupamentos heme (necessários para a transferência de elétrons). A inibição da enzima protoporfirinogênio oxidase (PROTOX) das plantas resulta em oxidação de lipídeos e proteínas no citoplasma da célula e consequente morte da planta. [0027] A ninth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences of the enzyme protoporphyrinogen oxidase (PROTOX) of plants. In this case, the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the different possibilities of active site (binding site) of the enzyme protoporphyrinogen oxidase (PROTOX) of plants. As a consequence of this action, the action of the protoporate enzyme will be stimulated, prevented or hindered. firinogen oxidase (PROTOX) of plants, causing stimulation or inhibition of its biological action of protoporphyrinogen oxidation in protoporphyrin IX, which is a precursor of chlorophyll and heme groups (necessary for electron transfer). Inhibition of the enzyme protoporphyrinogen oxidase (PROTOX) in plants results in oxidation of lipids and proteins in the cell cytoplasm and consequent plant death.
[0028] Uma décima modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácidos) que tem como alvo as sequências de aminoácidos, toda ou em parte, que compõe as proteínas do complexo da respiração celular. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam o sítio ativo (sítio de ligação) das proteínas citadas anteriormente. Como consequência dessa atuação, ficará inibida, impedida ou dificultada, totalmente ou parcialmente, a respiração celular das plantas. [0028] A tenth preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences, in whole or in part, that make up the proteins of the cellular respiration complex. In this case, the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the active site (binding site) of the aforementioned proteins. As a consequence of this action, cellular respiration of plants will be inhibited, impeded or hindered, totally or partially.
[0029] Uma décima primeira modalidade preferida trata da aplicação da estratégia 1 (atuação sobre aminoácidos) que tem como alvo as sequências de aminoácidos, toda ou em parte, que compõe as proteínas que atuam na síntese de aminoácidos e proteínas. Nesse caso as sequências de frequências atuarão conforme suas frequências direcionadoras sobre as sequências de aminoácidos que formam o sítio ativo (sítio de ligação) das proteínas que atuam na síntese de aminoácidos e proteínas da planta. Como consequência dessa atuação, ficará impedida ou dificultada a síntese de aminoácidos e proteínas das plantas. [0029] An eleventh preferred modality deals with the application of strategy 1 (acting on amino acids) which targets the amino acid sequences, in whole or in part, that make up the proteins that act in the synthesis of amino acids and proteins. In this case, the frequency sequences will act according to their directing frequencies on the amino acid sequences that form the active site (binding site) of the proteins that act in the synthesis of amino acids and plant proteins. As a consequence of this action, the synthesis of amino acids and plant proteins will be prevented or hindered.

Claims

REIVINDICAÇÕES
1 . Processo para atuação em plantas por meio de sequências de frequências extremamente baixas e frequências direcionadoras caracterizado por fazer uso de sequências de frequências que são únicas para cada alvo determinado pelas frequências direcionadoras em uma ou mais plantas (incluindo suas variações e/ou mutações), que atuam sobre sequências de aminoácidos determinada estimulando ou inibindo, totalmente ou parcialmente, sua função biológica. 1 . Process for acting on plants by means of sequences of extremely low frequencies and driving frequencies characterized by making use of sequences of frequencies that are unique for each target determined by the driving frequencies in one or more plants (including their variations and/or mutations), which act on specific amino acid sequences, stimulating or inhibiting, totally or partially, their biological function.
2. Processo conforme reivindicação 1 caracterizado por ter como alvo as sequências de aminoácidos, toda ou em parte, que compõem as proteínas do complexo da respiração celular, estimulando ou inibindo, totalmente ou parcialmente, a respiração celular das plantas. 2. Process according to claim 1, characterized by targeting the amino acid sequences, in whole or in part, that make up the proteins of the cellular respiration complex, stimulating or inhibiting, totally or partially, cellular respiration in plants.
3. Processo conforme reivindicação 1 caracterizado por ter como alvo as sequências de aminoácidos, toda ou em parte, que compõem as proteínas do complexo do fotossistema I e II, estimulando ou inibindo, totalmente ou parcialmente, a fotossíntese das plantas. 3. Process according to claim 1, characterized in that it targets the amino acid sequences, in whole or in part, that make up the proteins of the photosystem complex I and II, stimulating or inhibiting, totally or partially, photosynthesis in plants.
4. Processo conforme reivindicação 1 caracterizado por ter como alvo as sequências de aminoácidos, toda ou em parte, que compõem as proteínas que atuam na síntese de aminoácidos e proteínas, estimulando ou inibindo, totalmente ou parcialmente, a síntese de aminoácidos e proteínas das plantas. 4. Process according to claim 1 characterized by targeting the amino acid sequences, in whole or in part, that make up the proteins that act in the synthesis of amino acids and proteins, stimulating or inhibiting, totally or partially, the synthesis of amino acids and proteins in plants .
5. Processo para atuação em plantas por meio de sequências de frequências extremamente baixas e frequências direcionadoras caracterizado por fazer uso de sequências de frequências que são únicas para cada alvo determinado pelas frequências direcionadoras em uma ou mais plantas (incluindo suas variações e/ou mutações), que atuam sobre sequências de nucleotídeos determinadas estimulando ou inibindo, totalmente ou parcialmente, sua função biológica. 5. Process for acting on plants through sequences of extremely low frequencies and driving frequencies characterized by making use of sequences of frequencies that are unique for each target determined by the driving frequencies in one or more plants (including their variations and/or mutations) , which act on certain nucleotide sequences, stimulating or inhibiting, totally or partially, their biological function.
6. Processo conforme reivindicação 5 caracterizado por ter como alvo sequências de nucleotídeos, toda ou em parte, que podem ser transcritas e traduzidas em proteínas que atuam em funções vitais às plantas, estimulando ou inibindo, totalmente ou parcialmente, a síntese de aminoácidos, peptídeos e proteínas das plantas. 6. Process according to claim 5 characterized by targeting nucleotide sequences, in whole or in part, that can be transcribed and translated into proteins that act in vital functions to plants, stimulating or inhibiting, totally or partially, the synthesis of amino acids, peptides and proteins from plants.
7. Processo conforme reivindicação 5 caracterizado por ter como alvo sequências de nucleotídeos, toda ou em parte, que podem ser transcritas e traduzidas em proteínas que atuam na indução de defesa das plantas, melhorando a indução dos seus mecanismos de defesa contra parasitas e/ou micro-organismos causadores de doenças. 7. Process according to claim 5 characterized by targeting nucleotide sequences, in whole or in part, that can be transcribed and translated into proteins that act in inducing plant defense, improving the induction of their defense mechanisms against parasites and/or disease-causing microorganisms.
8. Processo para atuação em plantas por meio de sequências de frequências extremamente baixas e frequências direcionadoras caracterizado por fazer uso de sequências de frequências que são únicas para cada alvo determinado pelas frequências direcionadoras em uma ou mais plantas (incluindo suas variações e/ou mutações), para atuar sobre elementos químicos e/ou compostos químicos, tais como hormônios, lipídios e neurotransmissores, entre outros, estimulando ou inibindo, totalmente ou parcialmente, sua função biológica. 8. Process for acting on plants through sequences of extremely low frequencies and driving frequencies characterized by making use of sequences of frequencies that are unique for each target determined by the driving frequencies in one or more plants (including their variations and/or mutations) , to act on chemical elements and/or chemical compounds, such as hormones, lipids and neurotransmitters, among others, stimulating or inhibiting, totally or partially, their biological function.
9. Processo conforme reivindicação 8 caracterizado por ter como alvo elementos químicos e/ou compostos químicos, todo ou em parte, que compõem os hormônios que atuam em processos de crescimento e desenvolvimento das plantas, tais como o hormônio auxina, citocinina e giberelina, estimulando ou inibindo, totalmente ou parcialmente, a ação do hormônio auxina e/ou citocinina e/ou a giberelina das plantas. 9. Process according to claim 8 characterized by targeting chemical elements and/or chemical compounds, in whole or in part, that make up the hormones that act in plant growth and development processes, such as the hormone auxin, cytokinin and gibberellin, stimulating or inhibiting, totally or partially, the action of the hormone auxin and/or cytokinin and/or gibberellin in plants.
10. Processo conforme reivindicação 8 caracterizado por ter como alvo a molécula de clorofila, toda ou em parte, que atua no processo de fotossíntese das plantas, estimulando ou inibindo, totalmente ou parcialmente, a ação da clorofila das plantas. 10. Process according to claim 8 characterized by targeting the chlorophyll molecule, in whole or in part, which acts in the process of photosynthesis in plants, stimulating or inhibiting, totally or partially, the action of chlorophyll in plants.
PCT/BR2022/050376 2021-09-27 2022-09-25 Method for acting upon plants using sequences of extremely low frequencies and guide frequencies WO2023044550A1 (en)

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3579081A (en) 1968-11-12 1971-05-18 Gulton Ind Inc Low frequency sine wave generator circuit
EP2753173A2 (en) 2011-09-08 2014-07-16 Syngenta Limited Herbicidal composition comprising polymeric microparticles containing a herbicide
BR102017023442A2 (en) * 2017-10-30 2018-05-29 Luzo Dantas Junior EXTREMELY LOW FREQUENCY GENERATION PRODUCT AND PROCESS FOR CHEMICAL EQUALIZATION
US20190223387A1 (en) 2018-01-24 2019-07-25 Nano And Advanced Materials Institute Limited Light control device for stimulating plant growth and method thereof

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3579081A (en) 1968-11-12 1971-05-18 Gulton Ind Inc Low frequency sine wave generator circuit
EP2753173A2 (en) 2011-09-08 2014-07-16 Syngenta Limited Herbicidal composition comprising polymeric microparticles containing a herbicide
BR102017023442A2 (en) * 2017-10-30 2018-05-29 Luzo Dantas Junior EXTREMELY LOW FREQUENCY GENERATION PRODUCT AND PROCESS FOR CHEMICAL EQUALIZATION
US20190223387A1 (en) 2018-01-24 2019-07-25 Nano And Advanced Materials Institute Limited Light control device for stimulating plant growth and method thereof

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