際際滷shows by User: SamahMokbel / http://www.slideshare.net/images/logo.gif 際際滷shows by User: SamahMokbel / Mon, 11 Feb 2019 08:17:51 GMT 際際滷Share feed for 際際滷shows by User: SamahMokbel The modern trends in controlling plant diseases /slideshow/the-modern-trends-in-controlling-plant-diseases/131302532 themoderntrendsincontrollingplantdiseases-190211081751
The First Workshop of Plant Pathology Research Institute The Modern Trends in Controlling Plant Diseases 10-11 February 2019 Under auspices of Prof. Dr. Eszzaldin Omar Abusteit Minster of Agricultural and Land Reclamation Prof. Dr. Mohamed Soliman Director of Agricultural Research Center & President of the workshop Prof. Dr. Ashraf El Saied Khalil Director of Plant Pathology Research Institute]]>
The First Workshop of Plant Pathology Research Institute The Modern Trends in Controlling Plant Diseases 10-11 February 2019 Under auspices of Prof. Dr. Eszzaldin Omar Abusteit Minster of Agricultural and Land Reclamation Prof. Dr. Mohamed Soliman Director of Agricultural Research Center & President of the workshop Prof. Dr. Ashraf El Saied Khalil Director of Plant Pathology Research Institute]]> Mon, 11 Feb 2019 08:17:51 GMT /slideshow/the-modern-trends-in-controlling-plant-diseases/131302532 SamahMokbel@slideshare.net(SamahMokbel) The modern trends in controlling plant diseases SamahMokbel The First Workshop of Plant Pathology Research Institute The Modern Trends in Controlling Plant Diseases 10-11 February 2019 Under auspices of Prof. Dr. Eszzaldin Omar Abusteit Minster of Agricultural and Land Reclamation Prof. Dr. Mohamed Soliman Director of Agricultural Research Center & President of the workshop Prof. Dr. Ashraf El Saied Khalil Director of Plant Pathology Research Institute <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/themoderntrendsincontrollingplantdiseases-190211081751-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The First Workshop of Plant Pathology Research Institute The Modern Trends in Controlling Plant Diseases 10-11 February 2019 Under auspices of Prof. Dr. Eszzaldin Omar Abusteit Minster of Agricultural and Land Reclamation Prof. Dr. Mohamed Soliman Director of Agricultural Research Center &amp; President of the workshop Prof. Dr. Ashraf El Saied Khalil Director of Plant Pathology Research Institute
The modern trends in controlling plant diseases from Agriculture Research Center ARC, Egypt
]]> 99 1 https://cdn.slidesharecdn.com/ss_thumbnails/themoderntrendsincontrollingplantdiseases-190211081751-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Antiviral Activity of Lactoferrin against Potato virus x In vitro and In vivo /slideshow/antiviral-activity-of-lactoferrin-against-potato-virus-x-in-vitro-and-in-vivo/128518665 lactoferrine-190119223633
The objective of this study was to examine the antiviral activity of native lactoferrin against Potato virus x, the most important virus that severely affects potato crop and productivity in Egypt, using tissue culture technique and spraying the plants in greenhouse by the aqueous solution of lactoferrin.]]>
The objective of this study was to examine the antiviral activity of native lactoferrin against Potato virus x, the most important virus that severely affects potato crop and productivity in Egypt, using tissue culture technique and spraying the plants in greenhouse by the aqueous solution of lactoferrin.]]> Sat, 19 Jan 2019 22:36:32 GMT /slideshow/antiviral-activity-of-lactoferrin-against-potato-virus-x-in-vitro-and-in-vivo/128518665 SamahMokbel@slideshare.net(SamahMokbel) Antiviral Activity of Lactoferrin against Potato virus x In vitro and In vivo SamahMokbel The objective of this study was to examine the antiviral activity of native lactoferrin against Potato virus x, the most important virus that severely affects potato crop and productivity in Egypt, using tissue culture technique and spraying the plants in greenhouse by the aqueous solution of lactoferrin. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/lactoferrine-190119223633-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The objective of this study was to examine the antiviral activity of native lactoferrin against Potato virus x, the most important virus that severely affects potato crop and productivity in Egypt, using tissue culture technique and spraying the plants in greenhouse by the aqueous solution of lactoferrin.
Antiviral Activity of Lactoferrin against Potato virus x In vitro and In vivo from Agriculture Research Center ARC, Egypt
]]> 103 3 https://cdn.slidesharecdn.com/ss_thumbnails/lactoferrine-190119223633-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Characterizations of the Egyptian isolate of Onion yellow dwarf virus Infecting onion and development of Virus-Free plantlets /slideshow/characterizations-of-the-egyptian-isolate-of-onion-yellow-dwarf-virus-infecting-onion-and-development-of-virusfree-plantlets/128518442 onionplant7-68-81-190119223320
This work aimed to (i) Identify and characterize Onion yellow dwarf virus potyvirus (OYDV) in the onion plants in Egypt. (ii) Clone and sequence the coat protein gene of the Egyptian isolate of OYDV and comparing it with other OYDV isolates reported in the GenBank database. (iii) Study the influence of therapeutic doses of kinetin (6-Furfurylaminopurine) on production of virus-free onion plantlets and improve its regeneration ability through in vitro micropropagation.]]>
This work aimed to (i) Identify and characterize Onion yellow dwarf virus potyvirus (OYDV) in the onion plants in Egypt. (ii) Clone and sequence the coat protein gene of the Egyptian isolate of OYDV and comparing it with other OYDV isolates reported in the GenBank database. (iii) Study the influence of therapeutic doses of kinetin (6-Furfurylaminopurine) on production of virus-free onion plantlets and improve its regeneration ability through in vitro micropropagation.]]> Sat, 19 Jan 2019 22:33:20 GMT /slideshow/characterizations-of-the-egyptian-isolate-of-onion-yellow-dwarf-virus-infecting-onion-and-development-of-virusfree-plantlets/128518442 SamahMokbel@slideshare.net(SamahMokbel) Characterizations of the Egyptian isolate of Onion yellow dwarf virus Infecting onion and development of Virus-Free plantlets SamahMokbel This work aimed to (i) Identify and characterize Onion yellow dwarf virus potyvirus (OYDV) in the onion plants in Egypt. (ii) Clone and sequence the coat protein gene of the Egyptian isolate of OYDV and comparing it with other OYDV isolates reported in the GenBank database. (iii) Study the influence of therapeutic doses of kinetin (6-Furfurylaminopurine) on production of virus-free onion plantlets and improve its regeneration ability through in vitro micropropagation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/onionplant7-68-81-190119223320-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> This work aimed to (i) Identify and characterize Onion yellow dwarf virus potyvirus (OYDV) in the onion plants in Egypt. (ii) Clone and sequence the coat protein gene of the Egyptian isolate of OYDV and comparing it with other OYDV isolates reported in the GenBank database. (iii) Study the influence of therapeutic doses of kinetin (6-Furfurylaminopurine) on production of virus-free onion plantlets and improve its regeneration ability through in vitro micropropagation.
Characterizations of the Egyptian isolate of Onion yellow dwarf virus Infecting onion and development of Virus-Free plantlets from Agriculture Research Center ARC, Egypt
]]> 172 1 https://cdn.slidesharecdn.com/ss_thumbnails/onionplant7-68-81-190119223320-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Effect of Gamma Irradiation on Production of Phytoplasma-Free Hibiscus Plantlets /slideshow/effect-of-gamma-irradiation-on-production-of-phytoplasmafree-hibiscus-plantlets/128517511 gammaplant4-35-45-190119221900
Research topic was come from successful inactivation of some plant viruses by gamma irradiation like Citrus tristeza virus, Necrotic ring spot virus and Prune dwarf virus. Gamma irradiation has been also used to sterilize agricultural products in order to increase their conservation time or to reduce pathogen when being traded from a country to another. Gamma radiation is high-energy radiation emitted from certain radioactive isotopes as cobalt 60, these isotopes are potential sources of gamma radiation. Therefore, this research was conducted to find out the inactivation possibility of Hibiscus witches' broom (HibWB)-phytoplasma using gamma irradiation through tissue culture technique with clarify their effect on in vitro growth and survival rate.]]>
Research topic was come from successful inactivation of some plant viruses by gamma irradiation like Citrus tristeza virus, Necrotic ring spot virus and Prune dwarf virus. Gamma irradiation has been also used to sterilize agricultural products in order to increase their conservation time or to reduce pathogen when being traded from a country to another. Gamma radiation is high-energy radiation emitted from certain radioactive isotopes as cobalt 60, these isotopes are potential sources of gamma radiation. Therefore, this research was conducted to find out the inactivation possibility of Hibiscus witches' broom (HibWB)-phytoplasma using gamma irradiation through tissue culture technique with clarify their effect on in vitro growth and survival rate.]]> Sat, 19 Jan 2019 22:19:00 GMT /slideshow/effect-of-gamma-irradiation-on-production-of-phytoplasmafree-hibiscus-plantlets/128517511 SamahMokbel@slideshare.net(SamahMokbel) Effect of Gamma Irradiation on Production of Phytoplasma-Free Hibiscus Plantlets SamahMokbel Research topic was come from successful inactivation of some plant viruses by gamma irradiation like Citrus tristeza virus, Necrotic ring spot virus and Prune dwarf virus. Gamma irradiation has been also used to sterilize agricultural products in order to increase their conservation time or to reduce pathogen when being traded from a country to another. Gamma radiation is high-energy radiation emitted from certain radioactive isotopes as cobalt 60, these isotopes are potential sources of gamma radiation. Therefore, this research was conducted to find out the inactivation possibility of Hibiscus witches' broom (HibWB)-phytoplasma using gamma irradiation through tissue culture technique with clarify their effect on in vitro growth and survival rate. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/gammaplant4-35-45-190119221900-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Research topic was come from successful inactivation of some plant viruses by gamma irradiation like Citrus tristeza virus, Necrotic ring spot virus and Prune dwarf virus. Gamma irradiation has been also used to sterilize agricultural products in order to increase their conservation time or to reduce pathogen when being traded from a country to another. Gamma radiation is high-energy radiation emitted from certain radioactive isotopes as cobalt 60, these isotopes are potential sources of gamma radiation. Therefore, this research was conducted to find out the inactivation possibility of Hibiscus witches&#39; broom (HibWB)-phytoplasma using gamma irradiation through tissue culture technique with clarify their effect on in vitro growth and survival rate.
Effect of Gamma Irradiation on Production of Phytoplasma-Free Hibiscus Plantlets from Agriculture Research Center ARC, Egypt
]]> 70 3 https://cdn.slidesharecdn.com/ss_thumbnails/gammaplant4-35-45-190119221900-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Eradication of potato viruses and evaluation of different soil mixtures on minitubers production /slideshow/eradication-of-potato-viruses-and-evaluation-of-different-soil-mixtures-on-minitubers-production/128517271 miniplant5-46-57-190119221513
The present study has been conducted to perform the following objectives: 1- Study the effect of different temperature degrees and meristem culture technique on elimination of Potato leafroll virus (PLRV) and Potato virus x (PVX), from the most commonly potato cultivars in Egypt (Spunta and Lady Rosette). 2- Production of potato minitubers from direct transplanting of in vitro virus-free plantlets in greenhouse. Also, investigate the effect of different soil mixtures on minitubers production for both cultivars.]]>
The present study has been conducted to perform the following objectives: 1- Study the effect of different temperature degrees and meristem culture technique on elimination of Potato leafroll virus (PLRV) and Potato virus x (PVX), from the most commonly potato cultivars in Egypt (Spunta and Lady Rosette). 2- Production of potato minitubers from direct transplanting of in vitro virus-free plantlets in greenhouse. Also, investigate the effect of different soil mixtures on minitubers production for both cultivars.]]> Sat, 19 Jan 2019 22:15:13 GMT /slideshow/eradication-of-potato-viruses-and-evaluation-of-different-soil-mixtures-on-minitubers-production/128517271 SamahMokbel@slideshare.net(SamahMokbel) Eradication of potato viruses and evaluation of different soil mixtures on minitubers production SamahMokbel The present study has been conducted to perform the following objectives: 1- Study the effect of different temperature degrees and meristem culture technique on elimination of Potato leafroll virus (PLRV) and Potato virus x (PVX), from the most commonly potato cultivars in Egypt (Spunta and Lady Rosette). 2- Production of potato minitubers from direct transplanting of in vitro virus-free plantlets in greenhouse. Also, investigate the effect of different soil mixtures on minitubers production for both cultivars. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/miniplant5-46-57-190119221513-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The present study has been conducted to perform the following objectives: 1- Study the effect of different temperature degrees and meristem culture technique on elimination of Potato leafroll virus (PLRV) and Potato virus x (PVX), from the most commonly potato cultivars in Egypt (Spunta and Lady Rosette). 2- Production of potato minitubers from direct transplanting of in vitro virus-free plantlets in greenhouse. Also, investigate the effect of different soil mixtures on minitubers production for both cultivars.
Eradication of potato viruses and evaluation of different soil mixtures on minitubers production from Agriculture Research Center ARC, Egypt
]]> 42 4 https://cdn.slidesharecdn.com/ss_thumbnails/miniplant5-46-57-190119221513-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Detection and molecular characterization of phytoplasma associated with Hibiscus Witches-Broom in Egypt /slideshow/detection-and-molecular-characterization-of-phytoplasma-associated-with-hibiscus-witchesbroom-in-egypt/128517040 hibiscusmokbelet-190119221127
The objectives of this study were to detect and characterize the phytoplasma in tissues of diseased hibiscus plants using Dains stain light microscopy and molecular based techniques. Molecular characterization was performed using the DNA sequencing and phylogenetic analysis of the spacer region between 16S and 23S rRNA fragment of the isolated phytoplasma genome. This work concerning phytoplasma associated witches' broom (group 16SrII) diseases of hibiscus plants is achieved for the first time in Egypt. ]]>
The objectives of this study were to detect and characterize the phytoplasma in tissues of diseased hibiscus plants using Dains stain light microscopy and molecular based techniques. Molecular characterization was performed using the DNA sequencing and phylogenetic analysis of the spacer region between 16S and 23S rRNA fragment of the isolated phytoplasma genome. This work concerning phytoplasma associated witches' broom (group 16SrII) diseases of hibiscus plants is achieved for the first time in Egypt. ]]> Sat, 19 Jan 2019 22:11:26 GMT /slideshow/detection-and-molecular-characterization-of-phytoplasma-associated-with-hibiscus-witchesbroom-in-egypt/128517040 SamahMokbel@slideshare.net(SamahMokbel) Detection and molecular characterization of phytoplasma associated with Hibiscus Witches-Broom in Egypt SamahMokbel The objectives of this study were to detect and characterize the phytoplasma in tissues of diseased hibiscus plants using Dains stain light microscopy and molecular based techniques. Molecular characterization was performed using the DNA sequencing and phylogenetic analysis of the spacer region between 16S and 23S rRNA fragment of the isolated phytoplasma genome. This work concerning phytoplasma associated witches' broom (group 16SrII) diseases of hibiscus plants is achieved for the first time in Egypt. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/hibiscusmokbelet-190119221127-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The objectives of this study were to detect and characterize the phytoplasma in tissues of diseased hibiscus plants using Dains stain light microscopy and molecular based techniques. Molecular characterization was performed using the DNA sequencing and phylogenetic analysis of the spacer region between 16S and 23S rRNA fragment of the isolated phytoplasma genome. This work concerning phytoplasma associated witches&#39; broom (group 16SrII) diseases of hibiscus plants is achieved for the first time in Egypt.
Detection and molecular characterization of phytoplasma associated with Hibiscus Witches-Broom in Egypt from Agriculture Research Center ARC, Egypt
]]> 62 1 https://cdn.slidesharecdn.com/ss_thumbnails/hibiscusmokbelet-190119221127-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Occurrence, Etiology and Molecular Characterization of Phytoplasma Diseases on Solanum lycopersicum Crop in Egypt /slideshow/occurrence-etiology-and-molecular-characterization-of-phytoplasma-diseases-on-solanum-lycopersicum-crop-in-egypt/128516810 tomatoplant21-244-261-190119220818
The objectives of this study to investigate the occurrence and etiology of tomato malformation recently observed in Egypt and illustrate the responsibility of associated phytoplasma. Also, the study was extended to characterize associated phytoplasma, based on molecular techniques.]]>
The objectives of this study to investigate the occurrence and etiology of tomato malformation recently observed in Egypt and illustrate the responsibility of associated phytoplasma. Also, the study was extended to characterize associated phytoplasma, based on molecular techniques.]]> Sat, 19 Jan 2019 22:08:18 GMT /slideshow/occurrence-etiology-and-molecular-characterization-of-phytoplasma-diseases-on-solanum-lycopersicum-crop-in-egypt/128516810 SamahMokbel@slideshare.net(SamahMokbel) Occurrence, Etiology and Molecular Characterization of Phytoplasma Diseases on Solanum lycopersicum Crop in Egypt SamahMokbel The objectives of this study to investigate the occurrence and etiology of tomato malformation recently observed in Egypt and illustrate the responsibility of associated phytoplasma. Also, the study was extended to characterize associated phytoplasma, based on molecular techniques. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tomatoplant21-244-261-190119220818-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The objectives of this study to investigate the occurrence and etiology of tomato malformation recently observed in Egypt and illustrate the responsibility of associated phytoplasma. Also, the study was extended to characterize associated phytoplasma, based on molecular techniques.
Occurrence, Etiology and Molecular Characterization of Phytoplasma Diseases on Solanum lycopersicum Crop in Egypt from Agriculture Research Center ARC, Egypt
]]> 299 4 https://cdn.slidesharecdn.com/ss_thumbnails/tomatoplant21-244-261-190119220818-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 PARTIAL CHARACTERIZATION OF PRUNUS NECROTIC RINGSPOT VIRUS ON APPLE IN EGYPT /slideshow/partial-characterization-of-prunus-necrotic-ringspot-virus-on-apple-in-egypt/128516474 appleplant24-280-287-190119220329
In Egypt isolates of Prunus necrotic ringspot virus (PNRSV) were detected in peach and apricot grooves (Abdel-Salam et al. 2008a), Rosa spp. (Abdel-Salam et al., 2008b) as well as on sugarbeet plantations (Abdel-Salam et al., 2006a). In the present study, incidence of PNRSV is reported on apple (Malus domestica). Severe symptoms mimic infections with PNRSV were recently detected on apple from several orchards in the vicinity of Nubaria city, Beheira governorate. Infected-apple samples were brought to the laboratory for further detection at serological and molecular levels to check the presence of virus. The present study reports the presence of an isolate of PNRSV on apple, viz. PNRSV-Apple. ]]>
In Egypt isolates of Prunus necrotic ringspot virus (PNRSV) were detected in peach and apricot grooves (Abdel-Salam et al. 2008a), Rosa spp. (Abdel-Salam et al., 2008b) as well as on sugarbeet plantations (Abdel-Salam et al., 2006a). In the present study, incidence of PNRSV is reported on apple (Malus domestica). Severe symptoms mimic infections with PNRSV were recently detected on apple from several orchards in the vicinity of Nubaria city, Beheira governorate. Infected-apple samples were brought to the laboratory for further detection at serological and molecular levels to check the presence of virus. The present study reports the presence of an isolate of PNRSV on apple, viz. PNRSV-Apple. ]]> Sat, 19 Jan 2019 22:03:29 GMT /slideshow/partial-characterization-of-prunus-necrotic-ringspot-virus-on-apple-in-egypt/128516474 SamahMokbel@slideshare.net(SamahMokbel) PARTIAL CHARACTERIZATION OF PRUNUS NECROTIC RINGSPOT VIRUS ON APPLE IN EGYPT SamahMokbel In Egypt isolates of Prunus necrotic ringspot virus (PNRSV) were detected in peach and apricot grooves (Abdel-Salam et al. 2008a), Rosa spp. (Abdel-Salam et al., 2008b) as well as on sugarbeet plantations (Abdel-Salam et al., 2006a). In the present study, incidence of PNRSV is reported on apple (Malus domestica). Severe symptoms mimic infections with PNRSV were recently detected on apple from several orchards in the vicinity of Nubaria city, Beheira governorate. Infected-apple samples were brought to the laboratory for further detection at serological and molecular levels to check the presence of virus. The present study reports the presence of an isolate of PNRSV on apple, viz. PNRSV-Apple. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/appleplant24-280-287-190119220329-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> In Egypt isolates of Prunus necrotic ringspot virus (PNRSV) were detected in peach and apricot grooves (Abdel-Salam et al. 2008a), Rosa spp. (Abdel-Salam et al., 2008b) as well as on sugarbeet plantations (Abdel-Salam et al., 2006a). In the present study, incidence of PNRSV is reported on apple (Malus domestica). Severe symptoms mimic infections with PNRSV were recently detected on apple from several orchards in the vicinity of Nubaria city, Beheira governorate. Infected-apple samples were brought to the laboratory for further detection at serological and molecular levels to check the presence of virus. The present study reports the presence of an isolate of PNRSV on apple, viz. PNRSV-Apple.
PARTIAL CHARACTERIZATION OF PRUNUS NECROTIC RINGSPOT VIRUS ON APPLE IN EGYPT from Agriculture Research Center ARC, Egypt
]]> 111 4 https://cdn.slidesharecdn.com/ss_thumbnails/appleplant24-280-287-190119220329-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Efficiency of eugenol oil nanoemulsion against Banana bunchy top virus and contamination with fungi in plant tissue culture. /slideshow/efficiency-of-eugenol-oil-nanoemulsion-against-banana-bunchy-top-virus-and-contamination-with-fungi-in-plant-tissue-culture/128516168 nanores-190119215912
The present study aims to (I) evaluate the antiviral activity of eugenol oil nanoemulsion (EON) on eliminate Banana bunchy top virus (BBTV) from naturally infected banana plants and produce virus-free banana plants, (II) identify fungal contaminants of in vitro banana cultures and (III) evaluate the potential of EON on the suppression of the identified microbial contaminants and reduce of their occurrence frequency.]]>
The present study aims to (I) evaluate the antiviral activity of eugenol oil nanoemulsion (EON) on eliminate Banana bunchy top virus (BBTV) from naturally infected banana plants and produce virus-free banana plants, (II) identify fungal contaminants of in vitro banana cultures and (III) evaluate the potential of EON on the suppression of the identified microbial contaminants and reduce of their occurrence frequency.]]> Sat, 19 Jan 2019 21:59:12 GMT /slideshow/efficiency-of-eugenol-oil-nanoemulsion-against-banana-bunchy-top-virus-and-contamination-with-fungi-in-plant-tissue-culture/128516168 SamahMokbel@slideshare.net(SamahMokbel) Efficiency of eugenol oil nanoemulsion against Banana bunchy top virus and contamination with fungi in plant tissue culture. SamahMokbel The present study aims to (I) evaluate the antiviral activity of eugenol oil nanoemulsion (EON) on eliminate Banana bunchy top virus (BBTV) from naturally infected banana plants and produce virus-free banana plants, (II) identify fungal contaminants of in vitro banana cultures and (III) evaluate the potential of EON on the suppression of the identified microbial contaminants and reduce of their occurrence frequency. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/nanores-190119215912-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The present study aims to (I) evaluate the antiviral activity of eugenol oil nanoemulsion (EON) on eliminate Banana bunchy top virus (BBTV) from naturally infected banana plants and produce virus-free banana plants, (II) identify fungal contaminants of in vitro banana cultures and (III) evaluate the potential of EON on the suppression of the identified microbial contaminants and reduce of their occurrence frequency.
Efficiency of eugenol oil nanoemulsion against Banana bunchy top virus and contamination with fungi in plant tissue culture. from Agriculture Research Center ARC, Egypt
]]> 89 3 https://cdn.slidesharecdn.com/ss_thumbnails/nanores-190119215912-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Characterization of a novel asymptomatic isolate of Tomato spotted wilt virus, Infects chrysanthemum plants in Egypt /slideshow/characterization-of-a-novel-asymptomatic-isolate-of-tomato-spotted-wilt-virus-infects-chrysanthemum-plants-in-egypt/128515786 tswvandchrysanthemum-190119215410
The initial objective of this work was to isolate Tomato spotted wilt virus (TSWV) from asymptomatic infected plants and then identify the virus on the basis of biological properties among the most common or other hosts if possible after inoculation. Phylogenetic analysis was then conducted to gain information about the similar identity of the TSWV-isolate that reported in this study with available TSWV sequences from other parts of the world.]]>
The initial objective of this work was to isolate Tomato spotted wilt virus (TSWV) from asymptomatic infected plants and then identify the virus on the basis of biological properties among the most common or other hosts if possible after inoculation. Phylogenetic analysis was then conducted to gain information about the similar identity of the TSWV-isolate that reported in this study with available TSWV sequences from other parts of the world.]]> Sat, 19 Jan 2019 21:54:10 GMT /slideshow/characterization-of-a-novel-asymptomatic-isolate-of-tomato-spotted-wilt-virus-infects-chrysanthemum-plants-in-egypt/128515786 SamahMokbel@slideshare.net(SamahMokbel) Characterization of a novel asymptomatic isolate of Tomato spotted wilt virus, Infects chrysanthemum plants in Egypt SamahMokbel The initial objective of this work was to isolate Tomato spotted wilt virus (TSWV) from asymptomatic infected plants and then identify the virus on the basis of biological properties among the most common or other hosts if possible after inoculation. Phylogenetic analysis was then conducted to gain information about the similar identity of the TSWV-isolate that reported in this study with available TSWV sequences from other parts of the world. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tswvandchrysanthemum-190119215410-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The initial objective of this work was to isolate Tomato spotted wilt virus (TSWV) from asymptomatic infected plants and then identify the virus on the basis of biological properties among the most common or other hosts if possible after inoculation. Phylogenetic analysis was then conducted to gain information about the similar identity of the TSWV-isolate that reported in this study with available TSWV sequences from other parts of the world.
Characterization of a novel asymptomatic isolate of Tomato spotted wilt virus, Infects chrysanthemum plants in Egypt from Agriculture Research Center ARC, Egypt
]]> 57 1 https://cdn.slidesharecdn.com/ss_thumbnails/tswvandchrysanthemum-190119215410-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Ultrastructural changes in tomato plant induced by phytoplasma infection and attempts for its elimination using tissue culture techniques /slideshow/ultrastructural-changes-in-tomato-plant-induced-by-phytoplasma-infection-and-attempts-for-its-elimination-using-tissue-culture-techniques/128515370 egyptianj-190119214756
The objectives of this study are: (i): To investigate and recognize the internal and abnormalities impacts induced by phytoplasma infection in the tomato host according to recent studies have shown that the association between plants and phytoplasmas can result in anatomical alteration in phloem tissues of infected plants, and great differences between healthy and diseased samples using microscopic examination of longitudinal, cross or ultra-thin sections of leaf blade, leaf petiole and stem. (ii): To determine the efficiency of different techniques toward production of phytoplasma-free tomato plantlets and mitigation of phytoplasma disease.]]>
The objectives of this study are: (i): To investigate and recognize the internal and abnormalities impacts induced by phytoplasma infection in the tomato host according to recent studies have shown that the association between plants and phytoplasmas can result in anatomical alteration in phloem tissues of infected plants, and great differences between healthy and diseased samples using microscopic examination of longitudinal, cross or ultra-thin sections of leaf blade, leaf petiole and stem. (ii): To determine the efficiency of different techniques toward production of phytoplasma-free tomato plantlets and mitigation of phytoplasma disease.]]> Sat, 19 Jan 2019 21:47:55 GMT /slideshow/ultrastructural-changes-in-tomato-plant-induced-by-phytoplasma-infection-and-attempts-for-its-elimination-using-tissue-culture-techniques/128515370 SamahMokbel@slideshare.net(SamahMokbel) Ultrastructural changes in tomato plant induced by phytoplasma infection and attempts for its elimination using tissue culture techniques SamahMokbel The objectives of this study are: (i): To investigate and recognize the internal and abnormalities impacts induced by phytoplasma infection in the tomato host according to recent studies have shown that the association between plants and phytoplasmas can result in anatomical alteration in phloem tissues of infected plants, and great differences between healthy and diseased samples using microscopic examination of longitudinal, cross or ultra-thin sections of leaf blade, leaf petiole and stem. (ii): To determine the efficiency of different techniques toward production of phytoplasma-free tomato plantlets and mitigation of phytoplasma disease. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/egyptianj-190119214756-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The objectives of this study are: (i): To investigate and recognize the internal and abnormalities impacts induced by phytoplasma infection in the tomato host according to recent studies have shown that the association between plants and phytoplasmas can result in anatomical alteration in phloem tissues of infected plants, and great differences between healthy and diseased samples using microscopic examination of longitudinal, cross or ultra-thin sections of leaf blade, leaf petiole and stem. (ii): To determine the efficiency of different techniques toward production of phytoplasma-free tomato plantlets and mitigation of phytoplasma disease.
Ultrastructural changes in tomato plant induced by phytoplasma infection and attempts for its elimination using tissue culture techniques from Agriculture Research Center ARC, Egypt
]]> 83 1 https://cdn.slidesharecdn.com/ss_thumbnails/egyptianj-190119214756-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Plant tissue culture /slideshow/plant-tissue-culture-126896641/126896641 planttissueculture-181228131409
慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 愀惘 悋悒惓悋惘 惡慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惡悧悸 悋愃悵悋悧悸 悋愕惠悽惆悸 悋慍惘悋惺悸 惘悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惺悋 悋悗惓惘悸 悴悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惺惡悋惠 悋惠 惠愆悖 悖惓悋悄 惘悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悴悋悋惠 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸]]>
慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 愀惘 悋悒惓悋惘 惡慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惡悧悸 悋愃悵悋悧悸 悋愕惠悽惆悸 悋慍惘悋惺悸 惘悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惺悋 悋悗惓惘悸 悴悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惺惡悋惠 悋惠 惠愆悖 悖惓悋悄 惘悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悴悋悋惠 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸]]> Fri, 28 Dec 2018 13:14:09 GMT /slideshow/plant-tissue-culture-126896641/126896641 SamahMokbel@slideshare.net(SamahMokbel) Plant tissue culture SamahMokbel 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 愀惘 悋悒惓悋惘 惡慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惡悧悸 悋愃悵悋悧悸 悋愕惠悽惆悸 悋慍惘悋惺悸 惘悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惺悋 悋悗惓惘悸 悴悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惺惡悋惠 悋惠 惠愆悖 悖惓悋悄 惘悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悴悋悋惠 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/planttissueculture-181228131409-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 愀惘 悋悒惓悋惘 惡慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惡悧悸 悋愃悵悋悧悸 悋愕惠悽惆悸 悋慍惘悋惺悸 惘悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惺悋 悋悗惓惘悸 悴悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惺惡悋惠 悋惠 惠愆悖 悖惓悋悄 惘悋忰 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悴悋悋惠 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸
Plant tissue culture from Agriculture Research Center ARC, Egypt
]]> 2187 3 https://cdn.slidesharecdn.com/ss_thumbnails/planttissueculture-181228131409-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 悋悋惠悴悋悋惠 悋忰惆惓悸 悴悋 慍惘悋惺悸 悋悋愕悴悸 悋惠悋惓惘 悋悽惷惘 /slideshow/ss-55670780/55670780 random-151130212931-lva1-app6892
惡惆悖惠 惠悸 慍惘悋惺悸 悖愕悴悸 悋惡悋惠 惡惆 悋惓悋惘 悒惠悋悴 惡悋惠悋惠 悽悋悸 悋悖惘悋惷 悋惡悋惠悸 惠惺惆惆惠 悖愆悋 悵 悋惠悸 惓 慍惘悋惺悸 悋 悋惘愕惠悸 惡悋惠 悒愕惠悽惆悋 悋惺悋悴 悋忰惘悋惘 悖 悋悋 惆 悋惡 悵悋 惴惘 愀惘 忰惆惓悸 惺悋悸 惠惓 惶悋惆惘 悴惆惆悸 惠愃悋惘悋惘悋惓 惡惘悋悴 悋惠惘惡悸 惠忰愕 悋惡悋惠 惠惺惠惡惘 愕悋悧 悋悋悸 悋忰惆惓悸 悋惠 惠惺惘 惡悋愕 悋悋悸 悋愕惠忰惓悸 悵 惺 愀惘 惠忰慍 悖 忰惓 悴慍悄 悖悴慍悋悄 悋惡悋惠 惆惺 惺 悋悸 悋悖惘悋惷 惡悒愕惠悽惆悋 愕悋悧 惠惺 惓 悋忰惓 悋慍悋悧 惺 愀惘 悒愕惠悽惆悋 悋悖愆惺 悋惡愕悴悸 悖悖愆惺悸 悴悋悋. 悋 悴悋悄 悒愕惠悽惆悋 悵 悋惠悸 悋悴惆惆悸 悴悋 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惠 惠惺惠惆 惺 忰惓 悋惡惘悋惺 悋惆悋悽悸 惺 悋惠悋惆 悋惠悋惓惘 惡惆 惠 悋悋愕 悒惠悋悴 愆惠悋惠 悽悋悸 悋悖惘悋惷 悋惡悋惠悸 惺 惠悴悋愕 悋惡悋惠悋惠 悋 悋忰惶 惺 悖惺惆悋惆 惡惘悸 悋惡悋惠悋惠 悖 惠 忰惓 悖 惠愀惡悋 惡悴悋忰 惺 愀惘 悒愕惠悽惆悋 悖愆惺悸 悴悋悋 悋 忰悋惶 悽惠悸 悋愀悋愀 (Solanum lycopersicon L.) 悋惡愕愕 (Rosa-sinensis L.) 惘悸 悋悖 惶惘 悋悸 悖惘悋惷 悋惠惡悋慍悋 悋悽惠悸 惠 悴惘惺悋惠 悽惠悸 悖愆惺悸 悴悋悋 惠忰惆惆 悋悴惘惺悋惠 悋悋愕惡悸 惡悋惠 悵 悒悽惠悋惘 悋悖愕悋愀 悋愃悵悋悧悸 悋悋愕惡悸 慍惘悋惺悸 悋悖悴慍悋悄 悋惡悋惠悸 悋愆惺惺悸 悵 惺 慍惘悋惺悸 悋悋愕悴悸 惡愕 惡忰惓 悋惘愕 悋惠惡悋慍悋 惡惺惆 惡忰惓 悖惘悋惷 悋惡悋惠悋惠 惘慍 悋惡忰惓 悋慍惘悋惺悸 惡悋悴慍悸. 悖 惠愀惡 悖惆悋惠 悴惆惆悸 惠惺惠惆 惺 惠悸 慍惘悋惺悸 悋悖愕悴悸 悋惠愆惺惺 惡悋愕惠悽惆悋 悖愆惺悸 悴悋悋 惆 惠愕悋惺惆 惺 悒惠惘悋忰 悋愕惠惘悋惠悴悋惠 惺悋悸 悋悸 悋悖惘悋惷 悋惡悋惠悸 惡惶悸 惺悋悸 悖惘悋惷 悋惠惡悋慍悋 惡惶悸 悽悋惶悸 悵 惺 悒惠愆悋惘悋 惡悋悒惷悋悸 悒 惠忰 悋惠悸 悋慍惘悋惺悸 惆惺 惺悴悸 悋 悋惠惆 悋慍惘悋惺 惺悋悋 慍悋惆悸 悋惶悋惆惘悋惠 惺 愀惘 惠忰愕 悒惠悋悴悸 悋忰悋惶 悋悽惠悸 慍悋惆悸 悸 悋愃悵悋悄 悋惠 惠悴悋 悋惡悋惠 悋悋忰惆 惠 悋惆 悋忰惶 惠悴悸 悋悒惶悋惡悸 惡悋悖惘悋惷 悵 悋悋悄 惡悋惠愀惡悋惠 悋惠慍悋惆悸 惡愆惘悸 惠悴悸 悋慍悋惆悸 悋悋悧悸 悖惺惆悋惆 悋愕悋 惠 惺惆悋惠 悋悒愕惠惘悋惆 悋悽惘悋 惠忰 悋悋惠悋悄 悋悵悋惠. ]]>
惡惆悖惠 惠悸 慍惘悋惺悸 悖愕悴悸 悋惡悋惠 惡惆 悋惓悋惘 悒惠悋悴 惡悋惠悋惠 悽悋悸 悋悖惘悋惷 悋惡悋惠悸 惠惺惆惆惠 悖愆悋 悵 悋惠悸 惓 慍惘悋惺悸 悋 悋惘愕惠悸 惡悋惠 悒愕惠悽惆悋 悋惺悋悴 悋忰惘悋惘 悖 悋悋 惆 悋惡 悵悋 惴惘 愀惘 忰惆惓悸 惺悋悸 惠惓 惶悋惆惘 悴惆惆悸 惠愃悋惘悋惘悋惓 惡惘悋悴 悋惠惘惡悸 惠忰愕 悋惡悋惠 惠惺惠惡惘 愕悋悧 悋悋悸 悋忰惆惓悸 悋惠 惠惺惘 惡悋愕 悋悋悸 悋愕惠忰惓悸 悵 惺 愀惘 惠忰慍 悖 忰惓 悴慍悄 悖悴慍悋悄 悋惡悋惠 惆惺 惺 悋悸 悋悖惘悋惷 惡悒愕惠悽惆悋 愕悋悧 惠惺 惓 悋忰惓 悋慍悋悧 惺 愀惘 悒愕惠悽惆悋 悋悖愆惺 悋惡愕悴悸 悖悖愆惺悸 悴悋悋. 悋 悴悋悄 悒愕惠悽惆悋 悵 悋惠悸 悋悴惆惆悸 悴悋 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惠 惠惺惠惆 惺 忰惓 悋惡惘悋惺 悋惆悋悽悸 惺 悋惠悋惆 悋惠悋惓惘 惡惆 惠 悋悋愕 悒惠悋悴 愆惠悋惠 悽悋悸 悋悖惘悋惷 悋惡悋惠悸 惺 惠悴悋愕 悋惡悋惠悋惠 悋 悋忰惶 惺 悖惺惆悋惆 惡惘悸 悋惡悋惠悋惠 悖 惠 忰惓 悖 惠愀惡悋 惡悴悋忰 惺 愀惘 悒愕惠悽惆悋 悖愆惺悸 悴悋悋 悋 忰悋惶 悽惠悸 悋愀悋愀 (Solanum lycopersicon L.) 悋惡愕愕 (Rosa-sinensis L.) 惘悸 悋悖 惶惘 悋悸 悖惘悋惷 悋惠惡悋慍悋 悋悽惠悸 惠 悴惘惺悋惠 悽惠悸 悖愆惺悸 悴悋悋 惠忰惆惆 悋悴惘惺悋惠 悋悋愕惡悸 惡悋惠 悵 悒悽惠悋惘 悋悖愕悋愀 悋愃悵悋悧悸 悋悋愕惡悸 慍惘悋惺悸 悋悖悴慍悋悄 悋惡悋惠悸 悋愆惺惺悸 悵 惺 慍惘悋惺悸 悋悋愕悴悸 惡愕 惡忰惓 悋惘愕 悋惠惡悋慍悋 惡惺惆 惡忰惓 悖惘悋惷 悋惡悋惠悋惠 惘慍 悋惡忰惓 悋慍惘悋惺悸 惡悋悴慍悸. 悖 惠愀惡 悖惆悋惠 悴惆惆悸 惠惺惠惆 惺 惠悸 慍惘悋惺悸 悋悖愕悴悸 悋惠愆惺惺 惡悋愕惠悽惆悋 悖愆惺悸 悴悋悋 惆 惠愕悋惺惆 惺 悒惠惘悋忰 悋愕惠惘悋惠悴悋惠 惺悋悸 悋悸 悋悖惘悋惷 悋惡悋惠悸 惡惶悸 惺悋悸 悖惘悋惷 悋惠惡悋慍悋 惡惶悸 悽悋惶悸 悵 惺 悒惠愆悋惘悋 惡悋悒惷悋悸 悒 惠忰 悋惠悸 悋慍惘悋惺悸 惆惺 惺悴悸 悋 悋惠惆 悋慍惘悋惺 惺悋悋 慍悋惆悸 悋惶悋惆惘悋惠 惺 愀惘 惠忰愕 悒惠悋悴悸 悋忰悋惶 悋悽惠悸 慍悋惆悸 悸 悋愃悵悋悄 悋惠 惠悴悋 悋惡悋惠 悋悋忰惆 惠 悋惆 悋忰惶 惠悴悸 悋悒惶悋惡悸 惡悋悖惘悋惷 悵 悋悋悄 惡悋惠愀惡悋惠 悋惠慍悋惆悸 惡愆惘悸 惠悴悸 悋慍悋惆悸 悋悋悧悸 悖惺惆悋惆 悋愕悋 惠 惺惆悋惠 悋悒愕惠惘悋惆 悋悽惘悋 惠忰 悋悋惠悋悄 悋悵悋惠. ]]> Mon, 30 Nov 2015 21:29:31 GMT /slideshow/ss-55670780/55670780 SamahMokbel@slideshare.net(SamahMokbel) 悋悋惠悴悋悋惠 悋忰惆惓悸 悴悋 慍惘悋惺悸 悋悋愕悴悸 悋惠悋惓惘 悋悽惷惘 SamahMokbel 惡惆悖惠 惠悸 慍惘悋惺悸 悖愕悴悸 悋惡悋惠 惡惆 悋惓悋惘 悒惠悋悴 惡悋惠悋惠 悽悋悸 悋悖惘悋惷 悋惡悋惠悸 惠惺惆惆惠 悖愆悋 悵 悋惠悸 惓 慍惘悋惺悸 悋 悋惘愕惠悸 惡悋惠 悒愕惠悽惆悋 悋惺悋悴 悋忰惘悋惘 悖 悋悋 惆 悋惡 悵悋 惴惘 愀惘 忰惆惓悸 惺悋悸 惠惓 惶悋惆惘 悴惆惆悸 惠愃悋惘悋惘悋惓 惡惘悋悴 悋惠惘惡悸 惠忰愕 悋惡悋惠 惠惺惠惡惘 愕悋悧 悋悋悸 悋忰惆惓悸 悋惠 惠惺惘 惡悋愕 悋悋悸 悋愕惠忰惓悸 悵 惺 愀惘 惠忰慍 悖 忰惓 悴慍悄 悖悴慍悋悄 悋惡悋惠 惆惺 惺 悋悸 悋悖惘悋惷 惡悒愕惠悽惆悋 愕悋悧 惠惺 惓 悋忰惓 悋慍悋悧 惺 愀惘 悒愕惠悽惆悋 悋悖愆惺 悋惡愕悴悸 悖悖愆惺悸 悴悋悋. 悋 悴悋悄 悒愕惠悽惆悋 悵 悋惠悸 悋悴惆惆悸 悴悋 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惠 惠惺惠惆 惺 忰惓 悋惡惘悋惺 悋惆悋悽悸 惺 悋惠悋惆 悋惠悋惓惘 惡惆 惠 悋悋愕 悒惠悋悴 愆惠悋惠 悽悋悸 悋悖惘悋惷 悋惡悋惠悸 惺 惠悴悋愕 悋惡悋惠悋惠 悋 悋忰惶 惺 悖惺惆悋惆 惡惘悸 悋惡悋惠悋惠 悖 惠 忰惓 悖 惠愀惡悋 惡悴悋忰 惺 愀惘 悒愕惠悽惆悋 悖愆惺悸 悴悋悋 悋 忰悋惶 悽惠悸 悋愀悋愀 (Solanum lycopersicon L.) 悋惡愕愕 (Rosa-sinensis L.) 惘悸 悋悖 惶惘 悋悸 悖惘悋惷 悋惠惡悋慍悋 悋悽惠悸 惠 悴惘惺悋惠 悽惠悸 悖愆惺悸 悴悋悋 惠忰惆惆 悋悴惘惺悋惠 悋悋愕惡悸 惡悋惠 悵 悒悽惠悋惘 悋悖愕悋愀 悋愃悵悋悧悸 悋悋愕惡悸 慍惘悋惺悸 悋悖悴慍悋悄 悋惡悋惠悸 悋愆惺惺悸 悵 惺 慍惘悋惺悸 悋悋愕悴悸 惡愕 惡忰惓 悋惘愕 悋惠惡悋慍悋 惡惺惆 惡忰惓 悖惘悋惷 悋惡悋惠悋惠 惘慍 悋惡忰惓 悋慍惘悋惺悸 惡悋悴慍悸. 悖 惠愀惡 悖惆悋惠 悴惆惆悸 惠惺惠惆 惺 惠悸 慍惘悋惺悸 悋悖愕悴悸 悋惠愆惺惺 惡悋愕惠悽惆悋 悖愆惺悸 悴悋悋 惆 惠愕悋惺惆 惺 悒惠惘悋忰 悋愕惠惘悋惠悴悋惠 惺悋悸 悋悸 悋悖惘悋惷 悋惡悋惠悸 惡惶悸 惺悋悸 悖惘悋惷 悋惠惡悋慍悋 惡惶悸 悽悋惶悸 悵 惺 悒惠愆悋惘悋 惡悋悒惷悋悸 悒 惠忰 悋惠悸 悋慍惘悋惺悸 惆惺 惺悴悸 悋 悋惠惆 悋慍惘悋惺 惺悋悋 慍悋惆悸 悋惶悋惆惘悋惠 惺 愀惘 惠忰愕 悒惠悋悴悸 悋忰悋惶 悋悽惠悸 慍悋惆悸 悸 悋愃悵悋悄 悋惠 惠悴悋 悋惡悋惠 悋悋忰惆 惠 悋惆 悋忰惶 惠悴悸 悋悒惶悋惡悸 惡悋悖惘悋惷 悵 悋悋悄 惡悋惠愀惡悋惠 悋惠慍悋惆悸 惡愆惘悸 惠悴悸 悋慍悋惆悸 悋悋悧悸 悖惺惆悋惆 悋愕悋 惠 惺惆悋惠 悋悒愕惠惘悋惆 悋悽惘悋 惠忰 悋悋惠悋悄 悋悵悋惠. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/random-151130212931-lva1-app6892-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> 惡惆悖惠 惠悸 慍惘悋惺悸 悖愕悴悸 悋惡悋惠 惡惆 悋惓悋惘 悒惠悋悴 惡悋惠悋惠 悽悋悸 悋悖惘悋惷 悋惡悋惠悸 惠惺惆惆惠 悖愆悋 悵 悋惠悸 惓 慍惘悋惺悸 悋 悋惘愕惠悸 惡悋惠 悒愕惠悽惆悋 悋惺悋悴 悋忰惘悋惘 悖 悋悋 惆 悋惡 悵悋 惴惘 愀惘 忰惆惓悸 惺悋悸 惠惓 惶悋惆惘 悴惆惆悸 惠愃悋惘悋惘悋惓 惡惘悋悴 悋惠惘惡悸 惠忰愕 悋惡悋惠 惠惺惠惡惘 愕悋悧 悋悋悸 悋忰惆惓悸 悋惠 惠惺惘 惡悋愕 悋悋悸 悋愕惠忰惓悸 悵 惺 愀惘 惠忰慍 悖 忰惓 悴慍悄 悖悴慍悋悄 悋惡悋惠 惆惺 惺 悋悸 悋悖惘悋惷 惡悒愕惠悽惆悋 愕悋悧 惠惺 惓 悋忰惓 悋慍悋悧 惺 愀惘 悒愕惠悽惆悋 悋悖愆惺 悋惡愕悴悸 悖悖愆惺悸 悴悋悋. 悋 悴悋悄 悒愕惠悽惆悋 悵 悋惠悸 悋悴惆惆悸 悴悋 慍惘悋惺悸 悋悖愕悴悸 悋惡悋惠悸 悋惠 惠惺惠惆 惺 忰惓 悋惡惘悋惺 悋惆悋悽悸 惺 悋惠悋惆 悋惠悋惓惘 惡惆 惠 悋悋愕 悒惠悋悴 愆惠悋惠 悽悋悸 悋悖惘悋惷 悋惡悋惠悸 惺 惠悴悋愕 悋惡悋惠悋惠 悋 悋忰惶 惺 悖惺惆悋惆 惡惘悸 悋惡悋惠悋惠 悖 惠 忰惓 悖 惠愀惡悋 惡悴悋忰 惺 愀惘 悒愕惠悽惆悋 悖愆惺悸 悴悋悋 悋 忰悋惶 悽惠悸 悋愀悋愀 (Solanum lycopersicon L.) 悋惡愕愕 (Rosa-sinensis L.) 惘悸 悋悖 惶惘 悋悸 悖惘悋惷 悋惠惡悋慍悋 悋悽惠悸 惠 悴惘惺悋惠 悽惠悸 悖愆惺悸 悴悋悋 惠忰惆惆 悋悴惘惺悋惠 悋悋愕惡悸 惡悋惠 悵 悒悽惠悋惘 悋悖愕悋愀 悋愃悵悋悧悸 悋悋愕惡悸 慍惘悋惺悸 悋悖悴慍悋悄 悋惡悋惠悸 悋愆惺惺悸 悵 惺 慍惘悋惺悸 悋悋愕悴悸 惡愕 惡忰惓 悋惘愕 悋惠惡悋慍悋 惡惺惆 惡忰惓 悖惘悋惷 悋惡悋惠悋惠 惘慍 悋惡忰惓 悋慍惘悋惺悸 惡悋悴慍悸. 悖 惠愀惡 悖惆悋惠 悴惆惆悸 惠惺惠惆 惺 惠悸 慍惘悋惺悸 悋悖愕悴悸 悋惠愆惺惺 惡悋愕惠悽惆悋 悖愆惺悸 悴悋悋 惆 惠愕悋惺惆 惺 悒惠惘悋忰 悋愕惠惘悋惠悴悋惠 惺悋悸 悋悸 悋悖惘悋惷 悋惡悋惠悸 惡惶悸 惺悋悸 悖惘悋惷 悋惠惡悋慍悋 惡惶悸 悽悋惶悸 悵 惺 悒惠愆悋惘悋 惡悋悒惷悋悸 悒 惠忰 悋惠悸 悋慍惘悋惺悸 惆惺 惺悴悸 悋 悋惠惆 悋慍惘悋惺 惺悋悋 慍悋惆悸 悋惶悋惆惘悋惠 惺 愀惘 惠忰愕 悒惠悋悴悸 悋忰悋惶 悋悽惠悸 慍悋惆悸 悸 悋愃悵悋悄 悋惠 惠悴悋 悋惡悋惠 悋悋忰惆 惠 悋惆 悋忰惶 惠悴悸 悋悒惶悋惡悸 惡悋悖惘悋惷 悵 悋悋悄 惡悋惠愀惡悋惠 悋惠慍悋惆悸 惡愆惘悸 惠悴悸 悋慍悋惆悸 悋悋悧悸 悖惺惆悋惆 悋愕悋 惠 惺惆悋惠 悋悒愕惠惘悋惆 悋悽惘悋 惠忰 悋悋惠悋悄 悋悵悋惠.
悋悋惠悴悋悋惠 悋忰惆惓悸 悴悋 慍惘悋惺悸 悋悋愕悴悸 悋惠悋惓惘 悋悽惷惘 from Agriculture Research Center ARC, Egypt
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]]> Sat, 26 Apr 2014 05:00:27 GMT /slideshow/ss-33967731/33967731 SamahMokbel@slideshare.net(SamahMokbel) 悋悋悸 愆悴惘悸 悋 愕惠惡 惶惘 SamahMokbel <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/random-140426050027-phpapp01-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br>
悋悋悸 愆悴惘悸 悋 愕惠惡 惶惘 from Agriculture Research Center ARC, Egypt
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]]> Sat, 26 Apr 2014 04:57:46 GMT https://es.slideshare.net/slideshow/ss-33967693/33967693 SamahMokbel@slideshare.net(SamahMokbel) 悋悧惆 愆悴惘悸 悋 SamahMokbel <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/random-140426045746-phpapp02-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br>
from Agriculture Research Center ARC, Egypt
]]> 258 2 https://cdn.slidesharecdn.com/ss_thumbnails/random-140426045746-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 https://cdn.slidesharecdn.com/profile-photo-SamahMokbel-48x48.jpg?cb=1549901885 I am working at the Agricultural Research Center (ARC) where multidisciplinary research take place to management and control of plant diseases, and the development of integrated systems to overcome of different related problems. https://plus.google.com/collection/gAmEx https://cdn.slidesharecdn.com/ss_thumbnails/themoderntrendsincontrollingplantdiseases-190211081751-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/the-modern-trends-in-controlling-plant-diseases/131302532 The modern trends in c... https://cdn.slidesharecdn.com/ss_thumbnails/lactoferrine-190119223633-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/antiviral-activity-of-lactoferrin-against-potato-virus-x-in-vitro-and-in-vivo/128518665 Antiviral Activity of ... https://cdn.slidesharecdn.com/ss_thumbnails/onionplant7-68-81-190119223320-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/characterizations-of-the-egyptian-isolate-of-onion-yellow-dwarf-virus-infecting-onion-and-development-of-virusfree-plantlets/128518442 Characterizations of t...