Rumbidzai Mangoyi | Biotechnology | Best Researcher Award

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🌟Dr. Rumbidzai Mangoyi, Biotechnology, Best Researcher Award🏆

 Doctorate at University of Zimbabwe, Zimbabwe

Rumbidzai Mangoyi is a highly motivated and competent biochemist with extensive expertise in the biochemical industry. She holds a Doctor of Philosophy in Biochemistry from the University of Zimbabwe and has a strong background in both academic research and teaching. Her research interests include antifungal screening, phytochemical analysis, and toxicology, with a particular focus on medicinal plants used in Zimbabwe. Throughout her career, she has demonstrated exceptional skills in laboratory investigations, data analysis, and scientific reporting. Rumbidzai is also an accomplished educator, having supervised numerous undergraduate and postgraduate students and published extensively in reputable international journals.

Author Metrics:

ORCID Profile

Rumbidzai Mangoyi has established herself as a prolific author with numerous publications in reputable international journals. Her research contributions span various topics in biochemistry, including antifungal screening, phytochemical analysis, and toxicology. She has also authored book chapters and has served as a reviewer for several scientific journals. Rumbidzai’s publications reflect her expertise and dedication to advancing knowledge in her field.

Education:

Rumbidzai Mangoyi completed her secondary education at Harare High School before pursuing higher education at the University of Zimbabwe. She obtained a Bachelor of Science Honours degree in Biochemistry and later went on to earn her Doctor of Philosophy in Biochemistry from the same institution. Her educational background has provided her with a solid foundation in biochemistry, enabling her to excel in both research and teaching roles.

Research Focus:

Rumbidzai Mangoyi’s research focuses on various aspects of biochemistry, including antifungal screening, phytochemical analysis, and toxicology. She is particularly interested in investigating the therapeutic properties of medicinal plants used in Zimbabwe, with a focus on their potential applications in drug discovery and clinical biochemistry. Her research contributes to the understanding of natural products and their potential role in addressing health challenges.

Professional Journey:

Rumbidzai Mangoyi’s professional journey began with her appointment as a Teaching Assistant at the University of Zimbabwe, where she gained valuable experience in academic instruction and student supervision. She later progressed to become a Temporary Full-Time Lecturer before assuming her current role as a Permanent Full-Time Senior Lecturer. Throughout her career, she has demonstrated leadership, mentorship, and a commitment to excellence in research and education.

Honors & Awards:

Rumbidzai Mangoyi has received several honors and awards in recognition of her research contributions and academic achievements. Notably, she was awarded an Individual Research Grant by the International Foundation for Science (IFS) and received the Moroccan Society of Biochemistry and Molecular Biology (SMBBM) Award for Young Researchers. These accolades highlight her dedication to advancing scientific knowledge and her impact on the academic community.

Publications Noted & Contributions:

Rumbidzai Mangoyi has made significant contributions to the field of biochemistry through her extensive publication record. Her research articles cover a wide range of topics, including the molecular detection of genes, sub-chronic toxicity determination, and the evaluation of nutritional content. She has also presented her findings at various national and international conferences, contributing to the dissemination of scientific knowledge.

Molecular Detection and Phylogenetic Analysis of the alkB Gene in Klebsiella oxytoca Strains Isolated from the Gut of Tenebrio molitor

Journal: The Scientific World Journal

Date: May 9, 2024

DOI: 10.1155/2024/3350591

Contributors: Tsitsi Lynn Mupamhadzi, Oleen Machona, Farisai Chidzwondo, Rumbidzai Mangoyi, Jesus L. Romalde

Tenebrio molitor: possible source of polystyrene-degrading bacteria

Journal: BMC Biotechnology

Date: 2022

DOI: 10.1186/S12896-021-00733-3

Contributors: Oleen Machona, Farisai Chidzwondo, Rumbidzai Mangoyi

Investigating the effects of Erythrina abyssinica plant extract on proteases, a virulence factor of C. albicans

Journal: RAS MICROBIOLOGY AND INFECTIOUS DISEASES

Date: December, 2020

Contributor: Rumbidzai Mangoyi

Inhibition of Pseudomonas aeruginosa proteases: Possible mechanism of action of Melia azedarach leaf extract as an antibacterial agent

Journal: RAS MICROBIOLOGY AND INFECTIOUS DISEASES

Date: November, 2020

Contributor: Rumbidzai Mangoyi

The effects of Psidium guajava leaf extract on the production of cellulases and glucose oxidases by Aspergillus niger

Journal: GSC Advanced Research and Reviews

Date: November, 2020

DOI: 10.30574/GSCARR.2020.5.2.0109

Contributor: Rumbidzai Mangoyi

Research Timeline:

Rumbidzai Mangoyi’s research timeline spans over a decade, beginning with her doctoral studies and continuing to her current position as a Senior Lecturer. Throughout this period, she has conducted research on diverse topics in biochemistry, publishing numerous articles in reputable journals and presenting her findings at conferences. Her research trajectory demonstrates a commitment to advancing knowledge and addressing real-world challenges in the field.

Collaborations and Projects:

Rumbidzai Mangoyi has engaged in collaborative research projects with colleagues both within and outside her institution. These collaborations have led to interdisciplinary research endeavors aimed at addressing complex scientific questions and exploring innovative solutions. By working collaboratively, Rumbidzai has been able to leverage diverse expertise and resources to advance her research agenda and contribute to meaningful scientific discoveries.

Gideon Mmbando | Biological Sciences | Best Researcher Award

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🌟Dr. Gideon Mmbando, Biological Sciences, Best Researcher Award🏆

Assistant Professor at University of Dodoma, Tanzania

Professional Profiles:

Scopus Profile

Orcid Profile

Google Scholar Profile

Bio Summary:

Dr. Gideon Mmbando holds a Ph.D. in Molecular and Chemical Life Sciences. His collaborative research projects have delved into the sensitivity of African cultivated rice varieties to ultraviolet-B (UV-B) radiation. In one study, conducted in collaboration with Tohoku University in Japan, he found that African cultivars exhibited higher sensitivity to UV-B radiation compared to Asian cultivated rice cultivars. Another project involved the creation of UV-B tolerant African rice varieties through genetic engineering, transferring the UV-B-resistant gene from Asian to African rice cultivars. This initiative resulted in the development of a protocol for assessing UV-B sensitivity in African cultivated rice and the creation of UV-B-tolerant varieties, showing promising methods for survival and high yield in the tropical environment of Africa with high UV-B stress. Dr. Mmbando is also involved in ongoing research on the diversity of Arbuscular Mycorrhizal fungal communities across different land uses in the semi-arid region of Tanzania, aiming to inform sustainable land management and agricultural practices that promote beneficial AMF associations.

Education:

Dr. Gideon Mmbando – Academic and Professional Qualification:

Dr. Gideon Mmbando is a highly qualified professional with a Ph.D. in Molecular and Chemical Life Sciences, reflecting his dedication to advancing knowledge in this field.

Professional Journey:

Dr. Gideon Mmbando’s professional journey has been marked by a dedicated pursuit of knowledge and impactful contributions to the field of Molecular and Chemical Life Sciences. He holds a Ph.D. in Molecular and Chemical Life Sciences, reflecting his commitment to advanced research and academic excellence. Throughout his career, Dr. Mmbando has engaged in collaborative research projects that bridge scientific disciplines and address pressing issues in agriculture and environmental science.

One notable project involved the screening of Ultraviolet-B (UV-B) sensitivity among African cultivated rice varieties. In collaboration with Tohoku University in Japan, Dr. Mmbando investigated the nuanced responses of different African rice cultivars to UV-B radiation, uncovering valuable insights into their sensitivity compared to Asian varieties.

Another significant endeavor in his professional journey was the creation of UV-B tolerant African rice varieties. Leveraging genetic engineering techniques, Dr. Mmbando played a pivotal role in developing rice varieties capable of withstanding UV-B stress. The successful transfer of UV-B-resistant genes from Asian to African rice cultivars not only resulted in the development of UV-B-tolerant varieties but also established protocols for assessing UV-B sensitivity in African cultivated rice.

Currently, Dr. Mmbando is involved in a project exploring the diversity of arbuscular mycorrhizal fungal communities across different land uses in the semi-arid region of Tanzania. This ongoing research aims to understand how different land-use practices influence arbuscular mycorrhizal fungi, with the ultimate goal of informing sustainable land management and agricultural practices.

Dr. Gideon Mmbando’s professional journey reflects a commitment to scientific inquiry, collaboration, and the application of research findings to address agricultural challenges in regions facing environmental stressors. His work contributes to the advancement of knowledge and holds implications for sustainable agriculture and food security.

Research Projects:

Dr. Gideon Mmbando has been actively involved in collaborative research projects that contribute significantly to the understanding of Ultraviolet-B (UV-B) sensitivity among African cultivated rice varieties. In the first project, the objective was to investigate the response to UV-B radiation among different cultivated African rice varieties. This research was conducted in collaboration with Tohoku University in Japan. The findings revealed that African cultivars exhibited a higher sensitivity to UV-B radiation compared to their Asian counterparts.

The second collaborative project focused on the creation of UV-B tolerant African rice varieties. The primary goal was to develop rice varieties capable of tolerating UV-B radiation, a stress factor prevalent in the tropical environment of Africa. Genetic engineering techniques were employed to transfer the UV-B-resistant gene from Asian to African rice cultivars. The outcome of this project included the establishment of a protocol for assessing UV-B sensitivity in African cultivated rice. Moreover, the development of UV-B-tolerant varieties showcased promising methods for enhancing survival and achieving high yields in the challenging conditions of tropical Africa with elevated UV-B stress.

These collaborative research endeavors underscore Dr. Gideon Mmbando’s commitment to advancing agricultural practices and addressing environmental challenges, particularly in the context of UV-B radiation stress on African rice varieties. The outcomes of these projects have implications for sustainable agriculture and food security in the region.

Research Focus:

Dr. Gideon Mmbando’s research focus encompasses various aspects of molecular and chemical life sciences, with a particular emphasis on addressing challenges in agriculture and environmental science. His research interests include:

UV-B Sensitivity in Rice Varieties:

  • Dr. Mmbando has investigated the sensitivity of different cultivated African rice varieties to Ultraviolet-B (UV-B) radiation. This research sheds light on the varied responses of African and Asian rice cultivars to UV-B stress, contributing to our understanding of plant resilience to environmental factors.

Creation of UV-B Tolerant Rice Varieties:

  • Using genetic engineering techniques, Dr. Mmbando has been involved in the development of UV-B-tolerant African rice varieties. This research aims to enhance the resilience of rice crops to UV-B stress, providing potential solutions for sustainable rice cultivation in tropical environments with high UV-B radiation.

Diversity of Arbuscular Mycorrhizal Fungal Communities:

  • Dr. Mmbando is currently engaged in a project exploring the diversity of arbuscular mycorrhizal fungal (AMF) communities across different land uses in the semi-arid region of Tanzania. This research seeks to understand how various land-use practices influence AMF communities, with implications for sustainable land management and agricultural practices.

Sustainable Agriculture and Land Management:

  • The overarching theme of Dr. Mmbando’s research is geared towards developing strategies for sustainable agriculture and land management. By investigating the interactions between crops and environmental stressors, he aims to contribute valuable insights that can inform practices promoting beneficial associations with arbuscular mycorrhizal fungi and enhance crop resilience.

Dr. Gideon Mmbando’s diverse research focus underscores his commitment to addressing critical issues in agriculture, environmental sustainability, and food security. Through collaborative efforts and interdisciplinary approaches, his work aims to contribute to the development of strategies that benefit both the agricultural sector and the broader ecosystem.

Publications Top Noted & Contributions:

Title: The determinants of the low COVID-19 transmission and mortality rates in Africa: a cross-country analysis

  • Journal: Frontiers in public health
  • Year: 2021
  • Citation Count: 25

Title: COVID-19 pandemic related research in Africa: bibliometric analysis of scholarly output, collaborations and scientific leadership

  • Journal: International journal of environmental research and public health
  • Year: 2021
  • Citation Count: 24

Title: Recent updates on the possible reasons for the low incidence and morbidity of COVID-19 cases in Africa

  • Journal: Bulletin of the National Research Centre
  • Year: 2021
  • Citation Count: 13

Title: Very high sensitivity of African rice to artificial ultraviolet-B radiation caused by genotype and quantity of cyclobutane pyrimidine dimer photolyase

  • Journal: Scientific reports
  • Year: 2020
  • Citation Count: 12

Title: Transgenic rice Oryza glaberrima with higher CPD photolyase activity alleviates UVB-caused growth inhibition

  • Journal: GM crops & food
  • Year: 2021
  • Citation Count: 8