Progress 09/01/15 to 08/31/20
Outputs
Target Audience:During this reporting period, the target audiences were ASU research scientists, undergraduate and graduate students, small farmers and extension specialists. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?During the execution of this project, the students, lab technician, extension agents were trained with better skills and knowledge related with plant tissue culture techniques, disease diagnosis techniques and field practices. Two courses related with tissue culture and genetic engineering techniques were developed at undergraduate and graduate class levels at Alcorn State University and Hinds Community College. Flyers on plant disease management by applying modern biotechniques together with on-site demonstration have educated small farmers with raised awareness of viral disease knowledge based IPM for better environment protection. A close network among scientists, extension agents, farmers' associations and farmers greatly motivate the movement of biotechniques from research labs to the field practices, all the personnel mentioned above are benefit for the training and professional development. How have the results been disseminated to communities of interest?The research data were presented to several scientific meetings regionally or nationally, and stimulated exciting discussions for further collaborations. Posters, printed flyers and oral presentations during field days and workshops have direct impacted farmers knowledge base and raised discussion on how to integrated agricultural biotechnology into sweetpotato production practices. What do you plan to do during the next reporting period to accomplish the goals?
Nothing Reported
Impacts
What was accomplished under these goals?
In general, we haveaccoplished the major goals of this project.The procedure to remove the sweetpotato viruses with a combination of the meristem shoot tip tissue culture and thermotherapy was optimized in our lab; Optimized PCR protocols were developed to detect the existence of the four RNA viruses and one DNA virus for sweetpotato;Samples provided by Mississippi farmers were used to conduct virus detection and virus removal.Annual field practice to evaluate the performance of virus-tested sweetpotato was conducted at ASU field; Virus-free sweetpotato field demonstration and disease diagnosis were held at ASU field day and related workshops.
Publications
- Type:
Journal Articles
Status:
Published
Year Published:
2020
Citation:
Meng Y, Zhang C and Njiti V (2020). Virus elimination in sweetpotato: from meristem-tip culture to storage roots production: a review. Adv Agri Tech Plant Sciences 3(1): 180048
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Emmanuella Nnuji-John, Chimaka Udedibor, Yan Meng, Chunquan Zhang, Victor Njiti (2020). Virus-free sweetpotato: from meristem tip culture to storage roots production. 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Aundrea Coleman, Toni-Ann Nelson, Chunquan Zhang, Victor Njiti and Yan Meng (2020). Genetically engineered sweetpotato: a novel approach to improve sweet potato viral resistance. 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Toni-Ann Nelson, Aundrea Coleman, Yan Meng. Development of efficient plant regeneration protocols from diverse genotypes of sweetpotato (Ipomoea batatas (L. Lam) (2020). 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Myshawn Smith, Daniela F. Adjaye, Yan Meng, Victor Njiti, Chunquan Zhang Sweet potato polyphenol oxidase molecular study and its potential as CRISPR/Cas9 target for genome editing (2020). 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Virus elimination in sweetpotato through meristem tip culture and thermotherapy (2020). Chimaka Udedibor, Emmanuella Nnuji-John, Yan Meng. 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Andreya Dupree, Daniela Adjaye, Yan Meng, Victor Njiti, Chunquan Zhang (2020). Characterization of an infectious poplar mosaic virus CDNA clone. 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
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Progress 09/01/15 to 08/14/20
Outputs
Target Audience:During this reporting period, the target audiences were ASU research scientists, undergraduate and graduate students, small farmers and extension specialists. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?During the execution of this project, the students, lab technician, extension agents were trained with better skills and knowledge related with plant tissue culture techniques, disease diagnosis techniques and field practices. Two courses related with tissue culture and genetic engineering techniques were developed at undergraduate and graduate class levels at Alcorn State University and Hinds Community College. Flyers on plant disease management by applying modern biotechniques together with on-site demonstration have educated small farmers with raised awareness of viral disease knowledge based IPM for better environment protection. A close network among scientists, extension agents, farmers' associations and farmers greatly motivate the movement of biotechniques from research labs to the field practices, all the personnel mentioned above are benefit for the training and professional development. How have the results been disseminated to communities of interest?The research data were presented to several scientific meetings regionally or nationally, and stimulated exciting discussions for further collaborations. Posters, printed flyers and oral presentations during field days and workshops have direct impacted farmers knowledge base and raised discussion on how to integrated agricultural biotechnology into sweetpotato production practices. What do you plan to do during the next reporting period to accomplish the goals?
Nothing Reported
Impacts
What was accomplished under these goals?
In general, we haveaccoplished the major goals of this project.The procedure to remove the sweetpotato viruses with a combination of the meristem shoot tip tissue culture and thermotherapy was optimized in our lab; Optimized PCR protocols were developed to detect the existence of the four RNA viruses and one DNA virus for sweetpotato;Samples provided by Mississippi farmers were used to conduct virus detection and virus removal.Annual field practice to evaluate the performance of virus-tested sweetpotato was conducted at ASU field; Virus-free sweetpotato field demonstration and disease diagnosis were held at ASU field day and related workshops.
Publications
- Type:
Journal Articles
Status:
Published
Year Published:
2020
Citation:
Meng Y, Zhang C and Njiti V (2020). Virus elimination in sweetpotato: from meristem-tip culture to storage roots production: a review. Adv Agri Tech Plant Sciences 3(1): 180048
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Virus elimination in sweetpotato through meristem tip culture and thermotherapy (2020). Chimaka Udedibor, Emmanuella Nnuji-John, Yan Meng. 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Andreya Dupree, Daniela Adjaye, Yan Meng, Victor Njiti, Chunquan Zhang (2020). Characterization of an infectious poplar mosaic virus CDNA clone. 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Emmanuella Nnuji-John, Chimaka Udedibor, Yan Meng, Chunquan Zhang, Victor Njiti (2020). Virus-free sweetpotato: from meristem tip culture to storage roots production. 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Aundrea Coleman, Toni-Ann Nelson, Chunquan Zhang, Victor Njiti and Yan Meng (2020). Genetically engineered sweetpotato: a novel approach to improve sweet potato viral resistance. 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Toni-Ann Nelson, Aundrea Coleman, Yan Meng. Development of efficient plant regeneration protocols from diverse genotypes of sweetpotato (Ipomoea batatas (L. Lam) (2020). 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2020
Citation:
Myshawn Smith, Daniela F. Adjaye, Yan Meng, Victor Njiti, Chunquan Zhang Sweet potato polyphenol oxidase molecular study and its potential as CRISPR/Cas9 target for genome editing (2020). 84th Annual Mississippi Academy of Sciences Meeting, Biloxi, Mississippi
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Progress 09/01/18 to 08/31/19
Outputs
Target Audience:During this reporting period, the target audiences were ASU research scientists, undergraduate and graduate students, small farmers and extension specialists. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?During the execution of this project, the students, lab technician, extension agents were trained with better skills and knowledge related with plant tissue culture techniques, disease diagnosis techniques and field practices. Two courses related with tissue culture and genetic engineering techniques were developed at undergraduate and graduate class levels at Alcorn State University and Hinds Community College. Flyers on plant disease management by applying modern biotechniques together with on-site demonstration have educated small farmers with raised awareness of viral disease knowledge based IPM for better environment protection. A close network among scientists, extension agents, farmers' associations and farmers greatly motivate the movement of biotechniques from research labs to the field practices, all the personnel mentioned above are benefit for the training and professional development. How have the results been disseminated to communities of interest?The research data were presented to several scientific meetings regionally or nationally, and stimulated exciting discussions for further collaborations. Posters, printed flyers and oral presentations during field days and workshops have direct impacted farmers knowledge base and raised discussion on how to integrated agricultural biotechnology into sweetpotato production practices. What do you plan to do during the next reporting period to accomplish the goals?Our next goals will be focusing on goal 3 and 4. Especially, to establish an effective propagation and delivery system of virus indexed sweetpotato plants to limited resource farmers and to provide training modules and technical support to diverse groups of agricultural research and extension services. A netted greenhouse of Alcorn Agriculture Station at Mound Bayou, MS is constructed to serve for this purposes. The collaboration with Hinds Community College will further provide the virus free sweetpotato seeds to local farmers for increasing their farming income. PI, Co-PIs and collaborators will continue to arrange meetings to discuss plans for execution of the goals.
Impacts
What was accomplished under these goals?
The procedure to remove the sweetpotato viruses with a combination of the meristem shoot tip tissue culture and thermotherapy was optimized in our lab. Totally 24 lines of sweetpotato, for purposes of delivery to farmers or for breeding, have been collected from USDA, Louisiana State University and Mississippi State University. Once lines being received, optimized PCR protocols were used to detect the existence of the four RNA viruses and one DNA virus. Annual field practice to evaluate the performance of virus-tested sweetpotato was conducted at ASU field; leaf and root samples were harvested and used for virus detection and analysis. Virus-free sweetpotato field demonstration and disease diagnosis were held at ASU field day and related workshops.
Publications
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
1.Yan Meng, Faith Iseguede, Chunquan Zhang, Victor Njiti (2019). Establish and application of a virus-free sweetpotato program for limited resource farmers in Mississippi. 2019 American Society for Horticultural Science Annual Conference, Las Vegas, Nevada
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
2.Faith Iseguede, Yan Meng (2019). Biotechnological approaches for improving sweetpotato viral disease resistance in Mississippi. 34th Annual Career Fair & Training Conference, Kansas
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
3.Faith Iseguede, Yan Meng, Chunquan Zhang, Victor Njiti (2019). Elimination and detection of viruses in meristem-derived plantlets of sweetpotato in Mississippi. 19th Biennial research Symposium for Association of 1890 Research Directors, Jacksonville, Florida
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
4.Faith Iseguede, Yan Meng, Chunquan Zhang, Victor Njiti (2019). Using biotechnological approaches for improving sweetpotato viral disease resistance. 83rd Annual Mississippi Academy of Sciences Meeting, Hattiesburg, MS
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
5.Faith Iseguede, Yan Meng, Chunquan Zhang, Victor Njiti (2019). Biotechnological approaches for improving sweetpotato viral disease resistance in Mississippi. National Sweetpotato Collaborator Group meeting, Birmingham, AL
- Type:
Theses/Dissertations
Status:
Published
Year Published:
2019
Citation:
6. Faith Iseguede (2019). Elimination of viruses in sweetpotato (Ipomoea Batatas) by meristem-tip culture and thermotherapy
|
Progress 09/01/17 to 08/31/18
Outputs
Target Audience:During this reporting period, the target audiences were ASU research scientists, undergraduate and graduate students, small farmers and extension specialists. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?During the execution of this project, the students, lab technician, extension agents were trained with better skills and knowledge related with plant tissue culture techniques, disease diagnosis techniques and field practices. Two courses related with tissue culture and genetic engineering techniques were developed at undergraduate and graduate class levels. Flyers on plant disease management by applying modern biotechniques together with on-site demonstration and presentation have educated small farmers raising awareness of viral disease knowledge based IPM for better environment protection. A close networking among scientists, extension agents, farmers' associations and farmers greatly motivate the movement of biotechniques from research labs to the field practices, all the personnel mentioned above are benefit for the training and professional, development. How have the results been disseminated to communities of interest?The results were presented to several scientific meetings regionally or nationally and stimulated exciting discussions for further collaborations. Posters, printed flyers and oral presentations during field days and workshops have direct impacted farmers knowledge base and raise discussion on how to integrated agricultural biotechnology into sweetpotato production practices. What do you plan to do during the next reporting period to accomplish the goals?Our next goals will be focusing on goal 3 and 4. Especially, to establish an effective propagation and delivery system of virus-indexed sweetpotato plants to limited resource farmers and to provide training modules and technical support to diverse groups of agricultural research and extension services. A netted greenhouse of Alcorn Agriculture Station at Mound Bayou, MS is in construction to serve for this purposes. PI, Co-PIs and collaborators will continue to arrange meetings to discuss plans for execution of the goals.
Impacts
What was accomplished under these goals?
The procedure to remove the sweetpotato viruses with a combination of the meristem shoot tip tissue culture and heat-treatment was successfully developed in our lab. Totally 16 lines of sweetpotato, for purposes of delivery to farmers or for breeding, have been collected from USDA, Louisiana State University and Mississippi State University. Lines infected with viruses were done or are processing with treatments for viruses removal. Protocols for detecting viruses from the tissue culture plantlets were developed and adopted. Original virus-free sweetpotato stock plants that are obtained from meristem-tip culture and heat treatment are checked routinely to be free of detectable viruses. Field practices to evaluate the performance of virus-tested sweetpotato were conducted at ASU field, roots harvested from virus-tested plants and from non-treated plants have been compared; Leaf, stem and root samples have been collected and conducted for virus-detection. Virus-free sweetpotato demonstration and virus disease diagnostics were held at ASU field day and workshop. Presentations about virus-free sweetpotato lab protocol and field practices were giving by PI and Co-PIs.
Publications
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2018
Citation:
Kyler Holmes, Chunquan Zhang, Yan Meng (2018). Analysis of full-length infectious genomic cDNA clones of SPFMV and SPLCV and exploiting the approaches of biotechnology in sweetpotato for virus diseases resistance, 5th Mcbios, Starkville, MS
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2018
Citation:
Kyler Holmes, Yan Meng and Chunquan Zhang (2018). Development of biotechnological approaches for improving sweetpotato with multiple viral disease resistance. Mississippi Academy Society meeting, Hattiesburg, MS.
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2018
Citation:
Daniela F. Adjaye, Yan Meng, Victor Njiti, Chunquan Zhang (2018). Whole genome sequencing and the construction of infectious Poplar Mosaic Virus Clones. 4th Annual Centers for Research Excellence Symposium, Alcorn State University
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2018
Citation:
Faith O. Iseguede, Naquan Thomas and Yan Meng (2018). Virus removal of sweetpotato crop using meristem-tip culture technique. 4th Annual Centers for Research Excellence Symposium, Alcorn State University
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2018
Citation:
Kyler Holmes, Yan Meng, Chunquan Zhang and Victor Njiti (2018). Utilization of biotechnological approaches for improving sweetpotato viral disease resistance. 4th Annual Centers for Research Excellence Symposium, Alcorn State University
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2018
Citation:
Kyler Holmes, Yan Meng, Chunquan Zhang and Victor Njiti (2018). Exploiting the use of biotechnology for improving sweetpotato virus disease resistance. National sweetpotato collaborator group meeting, Wilmington, NC
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2018
Citation:
Faith Iseguede, Victor Njiti, Chunquan Zhang, Yan Meng (2018). Establishment and application of a virus free sweetpotato program for limited-resource farmers in Mississippi, USDA/NIFA PD meeting, Washington DC.
- Type:
Theses/Dissertations
Status:
Accepted
Year Published:
2018
Citation:
Kyler Holmes (2018). Development of biotechnological approaches for improving sweetpotato with multiple viral disease resistance, Master Degree Thesis, Alcorn State University.
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Progress 09/01/16 to 08/31/17
Outputs
Target Audience:During this reporting period, the target audiences were ASU research scientists, undergraduate and graduate students, small farmers and extension specialists. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?During the execution of this project, the students, lab technician, extension agents were trained with better skills and knowledge related with plant tissue culture techniques, disease diagnosis techniques and field practices. Two courses related with tissue culture and genetic engineering techniques were developed at undergraduate and graduate class levels. Flyers on plant disease management by applying modern biotechniques together with on-site demonstration and presentation have educated small farmers raising awareness of viral disease knowledge based IPM for better environment protection. A close networking among scientists, extension agents, farmers' associations and farmers greatly motivate the movement of biotechniques from research labs to the field practices, all the personnel mentioned above are benefit for the training and professional, development. How have the results been disseminated to communities of interest?The results were presented to several scientific meetings regionally or notionally and stimulated exciting discussions for further collaborations. Posters, printed flyers and oral presentations during field days and workshops have direct impacted farmers knowledge base and raise discussion on how to integrated agricultural biotechnology into sweetpotato production practices. What do you plan to do during the next reporting period to accomplish the goals?Our next goals to be acocoplished will be 3 and 4. Especially, to establish an effective propagation and delivery system of virus-indexed sweetpotato plants to limited resource farmers and to provide training modules and technical support to diverse groups of agricultural research and extension services. PI, Co-PIs and collaborators will continue to arrange meetings to discuss plans for execution of the goals.
Impacts
What was accomplished under these goals?
We continue to optimize the meristem shoot tip tissue culture procedure developed at the project collaborator's lab at the U.S. Vegetable Laboratory, USDA-ARS in Charleston, South Carolina (Ling et al., 2010). Totally 13 lines of sweetpotato, for purposes of delivery to farmers or for breeding, have been collected from USDA, Louisiana State University or lines bred at Alcorn State University. Lines infected with viruses were done or are processing with treatments for viruses removal. A combination of meristem-tip culture technique and heat-treatment was used to remove the tested-viruses; if the tested virus still could not be effectively removed, a second round of the same treatments on the previously treated plants would be used to eventually remove the viruses. Protocols for detecting viruses from the tissue culture plantlets were developed. Original virus-free sweetpotato stock plants that are obtained from meristem-tip culture and heat treatment are checked routinely to be free of detectable viruses. We continue to conduct field practices to evaluate the performance of virus-tested sweetpotato, roots harvested from virus-tested plants and from non-treated plants have been compared; Leaf, stem and root samples have been collected and conducted for virus-detection. Virus-free sweetpotato demonstration and virus disease diagnostics were held at ASU field day and workshop. Presentations about virus-free sweetpotato lab protocol and field practices were giving by PI and Co-PIs.
Publications
- Type:
Conference Papers and Presentations
Status:
Accepted
Year Published:
2017
Citation:
1. Kyler Holmes, Yan Meng (2017). Development of a virus-free sweetpotato program for limited-resource farmers in Mississippi. Mississippi Academy of Sciences, Hattiesburg, Mississippi
2. Kyler Holmes, Yan Meng (2017). Development and management of sweetpotato virus disease resistance through biotechnology approaches. Alcorn State University Research Symposium, Lorman, Mississippi
3. Yan Meng, David Henderson, Kyler Holmes, Rita Okoro, Victor Njiti, Chunquan Zhang (2016). Development of transgenic sweetpotato with multiple virus resistance in US. American Phytopathology Society, July 2016, Tampa, Florida.
4. Landrick Akrong, Yan Meng, Victor Njiti, Christopher Clark, Chunquan Zhang (2016). Construction of full-length genomic cDNA clones of Sweet potato feathery mottle virus. Journal of the Mississippi Academy of Sciences 61(1): 25
5. David Henderson, Chunquan Zhang, Victor Njiti, Yan Meng (2016) Development of transgenic sweetpotato with multiple virus resistance in US. Journal of the Mississippi Academy of Sciences 61(1): 27
|
Progress 09/01/15 to 08/31/16
Outputs
Target Audience:Scientists, undergraduate and graduate Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?During the execution of this project, the students, lab technician, extension agents were trained with better skills and knowledge related with plant tissue culture techniques, disease diagnosis techniques and field practices. Flyers on plant disease management by applying modern biotechniques together with on-site demonstration and presentation have educated small farmers raising awareness of viral disease knowledge based IPM for better environment protection. A close networking among scientists, extension agents, farmers' associations and farmers greatly motivate the movement of biotechniques from research labs to the field practices, all the personnel mentioned above are benefit for the training and professional development. How have the results been disseminated to communities of interest?The result was presented to annual national sweetpotato growers and scientists meeting and stimulated exciting discussions for further collaborations. Printed flyers and oral presentations during field days have direct impacted farmers knowledge base and raise discussion on how to integrated agricultural biotechnology into sweetpotato production practices. What do you plan to do during the next reporting period to accomplish the goals?Continue to work on goals 2, 3 and 4. Especially, to establish an effective propagation and delivery system of virus-indexed sweetpotato plants to limited resource farmers will be our next year's main focus. PI, Co-PIs and collaborators continue to arrange face-face meeting and teleconference meetings to discuss plans for execution of the goals.
Impacts
What was accomplished under these goals?
We modified the meristem shoot tip tissue culture procedure developed at the project collaborator's lab at the U.S. Vegetable Laboratory, USDA-ARS in Charleston, South Carolina (Ling et al., 2010). Totally 12 lines of sweetpotato, for purposes of delivery to farmers or for breeding, have been collected from USDA, Louisiana State University or lines bred by co-PI Dr. Njiti at Alcorn State University. All 13 lines were done or are processing with meristem tip culture for removing the viruses. RT-PCR was used to detect the tissue culture plantlets for Sweet Potato Leaf Curl Virus and Feathery Sweet Potato Mottle Virus. Protocols were developed according to (Li et al., 2012) and (Li et al., 2004). Original virus-free sweetpotato stock plants that are obtained from heat treatment and meristem-tip culture will be checked routinely to be free of detectable viruses. The original stock plants are being maintained and propagated in tissue culture lab located in the Agriculture Extension Building at ASU. Samples are being collected and labeled for detection at the plant pathology lab in Biotechnology Center at ASU. We have been conducting field practices for virus-free sweetpotato since 2015, roots harvested from virus-tested plants and from non-treated plants have been compared and leaf samples have been collected for virus-detection. Virus-free sweetpotato demonstration and virus disease diagnostics were held at ASU field day on August 25 2016. Dr. Yan Meng gave a presentation about virus-free sweetpotato lab protocol and field practices. Farmers showed great interests on the future collaboration on Nursery Company.
Publications
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2016
Citation:
1. Akrong, L, Meng Y, Njiti V, Clark C and Zhang C (2016). Construction of full-length genomic cDNA clones of Sweet potato feathery mottle virus. Journal of the Mississippi Academy of Sciences 61(1): 25
2. Henderson D, Zhang C, Njiti V and Meng Y (2016) Development of transgenic sweetpotato with multiple virus resistance in US. Journal of the Mississippi Academy of Sciences 61(1): 27
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