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公开(公告)号:EP4230701A1
公开(公告)日:2023-08-23
申请号:EP22216793.4
申请日:2022-12-27
发明人: FIALHO CAEIRO CALDEIRA, Ana Teresa , DEOMÉTRIO RODRIGUES LOURENÇO PEREIRA, António Manuel , CACHOLA EUSTÁQUIO, Raquel , CRISTÓVÃO PRATES RAMALHO, Joâo Paulo , ESTEVÃO GRANDE CANDEIAS, António José
IPC分类号: C09B23/14 , C09K11/06 , G01N33/533
摘要: Important scientific areas such as cellular biology, medicine, pharmacy, environmental sciences are dependent on very sensitive analytical techniques to track and detect biomolecules. The present application discloses a simple, low cost and effective synthetic strategy to produce new red-shifted 4-styrylcoumarin derivatives of Formulas I, II, III and IV as promising inexpensive fluorescent labels for biomolecules. The extension of the delocalized π-electron system results in bathochromic shifts in these new coumarin derivatives, which also present large Stokes shifts. In addition, density functional theory and time dependent density functional theory calculations helped to rationalize photophysical properties observed by the experimental results.
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公开(公告)号:EP4134447A1
公开(公告)日:2023-02-15
申请号:EP21194900.3
申请日:2021-09-03
申请人: ACOS - Associação de Agricultores do Sul , Cebal - Centro De Biotecnologia Agrícola E Agro-Alimentar Do Alentejo , Universidade De Évora , INIAV - Instituto Nacional de Investigação Agrária E Veterinária
发明人: PEREIRA MATOS, CLAUDINO ANTÓNIO , COSTA DO AMARAL RAMOS, ANTÓNIO MARCOS , USIÉ CHIMENOS, ANA ISABEL , BRANCO GASPA, DANIEL FILIPER , GODINHO VIEIRA MONTEIRO, MARIA HELENA , FIALHO LEÃO, CÉLIA CRISTINA , PIMENTEL CAROLINO, RENATO NUNO , DA SILVA BRANCO, SANDRA MARIA , NETO PADRE, LUDOVINA , VARELA BETTENCOURT HENRIQUES, ELISA MARIA , DE SOUSA HENRIQUES, PEDRO DAMIÃO
IPC分类号: C12Q1/6883 , C12Q1/689
摘要: The present patent application discloses a method for prognosis and characterization of sheep footrot based on the use of data produced using state-of-the-art sequencing techniques to characterize the composition of the microbiome associated with the foot rot in sheep. This characterization is done qualitatively, by identifying the species of bacteria present in the microbiome of each sample collected, but also quantitatively, as the abundance of each species, in each sample analyzed, is also determined. Subsequently, in situations where the observed score for the footrot is available for each animal, it is possible to identify the most important differences between animals not affected by footrot and those more affected by this disease.
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公开(公告)号:EP4134445A1
公开(公告)日:2023-02-15
申请号:EP21194880.7
申请日:2021-09-03
申请人: Cebal - Centro De Biotecnologia Agrícola E Agro-Alimentar Do Alentejo , Universidade De Évora , INIAV - Instituto Nacional de Investigação Agrária E Veterinária
发明人: COSTA DO AMARAL RAMOS, ANTÓNIO MARCOS , USIÉ CHIMENOS, ANA ISABEL , BRANCO GASPAR, DANIEL FILIPE , PINHEIRO RIBEIRO DE MEIRELES, BRÍGIDA DA NATIVIDADE , CARVALHO MAGALHÃES, HUGO , MOTA RUIVO MARTINS, JOSÉ MANUEL , SANTOS BARBOSA, PEDRO , FIALHO LEÃO, CÉLIA CRISTINA , CARRACHA CHARNECA, RUI MIGUEL , SOUSA JERÓNIMO, ELIANA ALEXANDRA , SARGENTO CACHUCHO, LILIANA MARGARIDA , PIMENTEL CAROLINO, RENATO NUNO
IPC分类号: C12Q1/6876
摘要: The present patent application discloses a method for the genetic selection of animals from the Alentejano pig breed with a genetic profile associated with better meat quality and higher growth. Said profile is determined based on a group of Single Nucleotide Polymorphisms (SNPs) herein associated with better meat quality and higher growth in the Alentejano pig breed.
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公开(公告)号:EP3912463A1
公开(公告)日:2021-11-24
申请号:EP20175861.2
申请日:2020-05-20
IPC分类号: A01K61/70
摘要: Underwater device for submersible artificial fish habitat, preferably for freshwater fish, comprising an upper circular structure (1) and a lower circular structure (2); a vertical support (3) for coupling the upper circular structure and lower circular structure forming a bonding region between the upper and the lower circular structure; a plurality of mesh panels (14) wherein some of the mesh panels are cut, for splitting the bonding region in slots or niches; a plurality of frames (9) for supporting longitudinally the plurality of mesh panels; wherein the plurality of frames are connected to the vertical support and arranged radially throughout the length of the upper circular structure and lower circular structure to reinforce the device; wherein vertically support comprises a plurality of perpendicular-central pipes (22) configured to couple a plurality of perpendicular-middle pipes, said middle pipes being located along the slots of the bonding region to form a tree structure; and anchoring means (4) for anchoring the underwater device to the lake/reservoir/pond bottom.
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35.发明公开
公开(公告)号:EP3839452A1
公开(公告)日:2021-06-23
申请号:EP19218538.7
申请日:2019-12-20
摘要: System for calibrate two or more pyranometers that measure solar radiation, comprising an electronic data processor configured for generating a mean calibration constant of the pyranometers, by carrying out the steps of: installing a reference pyrheliometer with known calibration constant RDIR placed proximal to the pyranometers to be calibrated; acquiring measurements of direct normal irradiance; recording the average values VDIR × CZA , VDIF ( i ) with i = 1, ..., NDIF and VGBL ( j ) with j = 1, ..., NGBL at a same and synchronized averaging rate; fit a linear function in the form Y = M × X + B to the data points defined by X i,j,k = VDIF ( i ) k / VGBL ( j ) k and Y i,j,k = VDIR × CZA k / VGBL ( j ) k with k = 1,..., NREC; calculating a calibration constants of the i-th pyranometer measuring diffuse irradiance through RDIF i,j = - RDIR / M and of the j-th pyranometer measuring the global irradiance (1b) through RGBL j,i = RDIR / B; calculating a mean calibration constant for the i-th pyranometer measuring diffuse irradiance through FDIF ‾ i = 1 NGBL ∑ j = 1 NGBL RDIF i , j , and a mean calibration constant for the j-th pyranometer measuring global irradiance through NGBL ‾ j = 1 NDIF ∑ i = 1 NDIF RGBL j , i .
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公开(公告)号:EP3835435A1
公开(公告)日:2021-06-16
申请号:EP19215059.7
申请日:2019-12-10
摘要: The present invention refers to microbial compositions based on native rhizobia strains belonging to different species of the genera Rhizobium and Ensifer, to these microbial strains and to methodologies for improving pastures and forages through the application of these compositions.
These compositions are used to improve the productivity of pastures by improving the growth of plants, namely legumes, in particular clovers and lucerne, which are widely used in acidic soils with Manganese toxicity problems in the "Montado" system.
Thus, the present invention has application in the field of agriculture, especially in sustainable agriculture, as a way to potentiate the growth of plants, particularly in situations of abiotic stress.-
公开(公告)号:EP3772279A1
公开(公告)日:2021-02-10
申请号:EP19190286.5
申请日:2019-08-06
发明人: Rei, Fernando , Gomes, Luis , Andrade, Leonardo , Tlemcani, Mouhaydine , Peça, José , Dias, António
IPC分类号: A01M1/08
摘要: The present invention relates to the development of a device for capturing flying insects, in particular olive fruit fly ( Bactrocera oleae ), a known key olive grove pest that can reduce olive production for olive oil by over 90%.
The device is autonomous and active in operation and comprises a substantially cylindrical outer body (1), a fan (2), an insect trapping mechanism within, composed of a set of adhesive chromotropic plates (6), and volatile compound (5) specific to attract the desired insect type.
In this way, it is possible to promote the biotechnical control of the olive fruit fly by capturing thereof through the device of the invention, aiming at protecting the olive grove from the harmful action associated with the presence of the populations of this pest.
The present invention thus relates to the field of agronomy, phytosanitary protection and biotechnical control of olive grove pests.-
公开(公告)号:EP3772278A1
公开(公告)日:2021-02-10
申请号:EP19213409.6
申请日:2019-12-04
发明人: Rei, Fernando
摘要: The present invention relates to the development of a device for capturing flying insects, in particular the olive fruit fly ( Bactrocera oleae ), a known olive grove pest.
This device or trap comprises a spiral (2) or linear skeleton and preferably an outer body (1) with small holes (3) through which volatile attractive compounds for adult insects placed within the trap are released. The attractive compound solution further comprises insecticidal compounds. By placing the trap horizontally along the olive tree crowns, the biotechnical control of the olive grove pests is thus promoted.
In this way, it is possible to promote the biotechnical control of the olive fruit fly by mass capturing thereof through the device of the invention, aiming at protecting the olive grove from the harmful action associated with the presence of the populations of this pest.
The present invention thus relates to the field of agronomy, phytosanitary protection and biotechnical control of olive grove pests.-
公开(公告)号:EP3400938B1
公开(公告)日:2020-09-09
申请号:EP18169956.2
申请日:2018-04-27
发明人: BURKE, Anthony , GAUDIO, Eugenio , BUSTO VAZQUEZ, Natalia , BERTONI, Francesco , SILVA MARQUES, Carolina
IPC分类号: A61K31/4192 , A61P35/00
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公开(公告)号:EP3527666A1
公开(公告)日:2019-08-21
申请号:EP19157119.9
申请日:2019-02-14
发明人: CALDEIRA, ANA , CANDEIAS, ANTÓNIO , PEREIRA, ANTONIO , SILVA, MARA , ROSADO, TANIA , MARTINS, SERGIO
摘要: The present invention relates a process for obtaining biocide compounds derived from Bacillus sp. cultures, compositions and formulations thereof, and their use in conservation of objects of cultural heritage.
The process of the present invention involves culturing and growing of three Bacillus sp. strains under nutrient stress conditions to obtain an enhanced production of lipopeptides (LPPs) having biocide activity.
Bioactive crude extracts of these Bacillus sp. cultures containing LPPs are disclosed herein and also bioactive compositions and formulations comprising said biocide compounds.
Said bioactive compounds, compositions and formulations have application in control the biodegradation, biodeterioration and conservation of objects of cultural heritage.
Therefore, the present invention is in the area of microbiology, cleaning of artworks, and conservation work of antique objects.
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