Your search keyword '"Molecular approaches"' showing total 193 results

1. Molecular breakthroughs in modern plant breeding techniques

Author

Abdul Aziz, Mughair and Masmoudi, Khaled

Published

2025

2. Molecular breakthroughs in modern plant breeding techniques.

Author

Aziz, Mughair Abdul and Masmoudi, Khaled

Subjects

PLANT breeding, CROPS, GENOTYPES, PHENOTYPES, AGRICULTURE

Abstract

Advancements in molecular approaches have been utilized to breed crops with a wide range of economically valuable traits to develop superior cultivars. This review provides a concise overview of modern breakthroughs in molecular plant production. Genotyping and high-throughput phenotyping methods for predictive plant breeding are briefly discussed. In this study, we explore contemporary molecular breeding techniques for producing desirable crop varieties. These techniques include cisgenesis, clustered regularly interspaced short palindromic repeat (CRISPR/Cas9) gene editing, haploid induction, and de novo domestication. We examine the speed breeding approachda strategy for cultivating plants under controlled conditions. We further highlight the significance of modern breeding technologies in efficiently utilizing agricultural resources for crop production in urban areas. The deciphering of crop genomes has led to the development of extensive DNA markers, quantitative trait loci (QTLs), and pangenomes associated with various desirable crop traits. This shift to the genotypic selection of crops considerably expedites the plant breeding process. Based on the plant population used, the connection between genotypic and phenotypic data provides several genetic elements, including genes, markers, and alleles that can be used in genomic breeding and gene editing. The integration of speed breeding with genomic-assisted breeding and cutting-edge genome editing tools has made it feasible to rapidly manipulate and generate multiple crop cycles and accelerate the plant breeding process. Breakthroughs in molecular techniques have led to substantial improvements in modern breeding methods. [ABSTRACT FROM AUTHOR]

Published

2025

3. Molecular Approaches to Improve Legume Salt Stress Tolerance.

Author

El Moukhtari, Ahmed, Lamsaadi, Nadia, Cabassa, Cécile, Farissi, Mohamed, and Savouré, Arnould

Subjects

*TRANSGENIC plants, *GENETIC engineering, *CROP losses, *TRANSCRIPTION factors, *OXIDATIVE stress

Abstract

The global challenge of crop loss due to salt stress became increasingly significant, especially in the context of meeting the rising demands of a growing world population. This review focuses on the impact of salt stress on leguminous plants throughout their entire growth stages. Additionally, it provides a comprehensive overview of the molecular strategies employed to enhance the performance of legumes in saline environments. In addressing this issue, the review critically assesses recent advancements in bolstering legume salt stress tolerance through genetic engineering. This approach is acknowledged for its efficiency compared to traditional breeding methods, facilitating the transfer of desired genes without introducing extraneous genetic material from the donor organism. The review also examines the critical role of preventing ionic toxicity in transgenic leguminous plants by expressing foreign Na+/H+ antiporter genes and transcription factors. Furthermore, the review emphasizes the positive outcomes observed when introducing or overexpressing genes related to compatible solutes in transgenic legumes. These genetic modifications have proven effective in enhancing the tolerance of legumes to salinity-induced osmotic stress. Another aspect explored in the review is the improving of salt stress-induced oxidative stress management in various transgenic legume species. This is achieved through the expression of both enzymatic and non-enzymatic genes. Finally, the review explores the manipulation of candidate genes to improve nodule performance under salt stress. By identifying and modifying specific genes, researchers can pave the way for leguminous plants to thrive in salt-affected environments. [ABSTRACT FROM AUTHOR]

Published

2024

4. Quinoa: A Promising Crop for Resolving the Bottleneck of Cultivation in Soils Affected by Multiple Environmental Abiotic Stresses.

Author

Dehghanian, Zahra, Ahmadabadi, Mohammad, Asgari Lajayer, Behnam, Gougerdchi, Vahideh, Hamedpour-Darabi, Mohsen, Bagheri, Nazila, Sharma, Ritika, Vetukuri, Ramesh R., Astatkie, Tess, and Dell, Bernard

Subjects

WEATHER & climate change, QUINOA, TILLAGE, ABIOTIC stress, GENETIC variation, NUTRITIONAL value

Abstract

Quinoa (Chenopodium quinoa Willd.) has gained worldwide recognition for its nutritional values, adaptability to diverse environments, and genetic diversity. This review explores the current understanding of quinoa tolerance to environmental stress, focusing on drought, salinity, heat, heavy metals, and UV-B radiation. Although drought and salinity have been extensively studied, other stress factors remain underexplored. The ever-increasing incidence of abiotic stress, exacerbated by unpredictable weather patterns and climate change, underscores the importance of understanding quinoa's responses to these challenges. Global gene banks safeguard quinoa's genetic diversity, supporting breeding efforts to develop stress-tolerant varieties. Recent advances in genomics and molecular tools offer promising opportunities to improve stress tolerance and increase the yield potential of quinoa. Transcriptomic studies have shed light on the responses of quinoa to drought and salinity, yet further studies are needed to elucidate its resilience to other abiotic stresses. Quinoa's ability to thrive on poor soils and limited water resources makes it a sustainable option for land restoration and food security enterprises. In conclusion, quinoa is a versatile and robust crop with the potential to address food security challenges under environmental constraints. [ABSTRACT FROM AUTHOR]

Published

2024

5. Expression and functional analysis of a recombinant aquaporin Z from Antarctic Pseudomonas sp. AMS3.

Author

Balakrishnan, S., Rahman, R. N. Z. R. A., Noor, N. D. M., Latip, W., and Ali, M. S. M.

Abstract

Aquaporin (AQP) is a water channel protein from the family of transmembrane proteins which facilitates the movement of water across the cell membrane. It is ubiquitous in nature, however the understanding of the water transport mechanism, especially for AQPs in microbes adapted to low temperatures, remains limited. AQP also has been recognized for its ability to be used for water filtration, but knowledge of the biochemical features necessary for its potential applications in industrial processes has been lacking. Therefore, this research was conducted to express, extract, solubilize, purify, and study the functional adaptations of the aquaporin Z family from Pseudomonas sp. AMS3 via molecular approaches. In this study, AqpZ1 AMS3 was successfully subcloned and expressed in E. coli BL21 (DE3) as a recombinant protein. The AqpZ1 AMS3 gene was expressed under optimized conditions and the best optimized condition for the AQP was in 0.5 mM IPTG incubated at 25°C for 20 h induction time. A zwitterionic mild detergent [(3‐cholamidopropyl) dimethylammonio]‐1‐propanesulfonate was the suitable surfactant for the protein solubilization. The protein was then purified via affinity chromatography. Liposome and proteoliposome was reconstituted to determine the particle size using dynamic light scattering. This information obtained from this psychrophilic AQP identified provides new insights into the structural adaptation of this protein at low temperatures and could be useful for low temperature application and molecular engineering purposes in the future. [ABSTRACT FROM AUTHOR]

Published

2024

6. Harmful Cyanobacterial Blooms: Going beyond the "Green" to Monitor and Predict HCBs.

Author

de Figueiredo, Daniela R.

Subjects

*CYANOBACTERIAL blooms, *CLIMATE change, *POPULATION, *SOCIOECONOMIC factors, *PREDICTION models

Abstract

Under the Climate Change scenario, the occurrence of Harmful Cyanobacterial Blooms (HCBs) is an increasingly concerning problem. Particularly for inland freshwaters, that have human populations depending on them for consumption or recreation, HCBs can lead to serious ecological damages and socio-economic impacts, but also to health risks for local communities. From satellite imagery to molecular data, there is an increasing number of methodological approaches that can help improve the monitoring and prediction of cyanobacterial blooms. However, although each methodology has its own strengths and limitations, generally there is a lack of data addressing specific and intraspecific information, which has implications for the modelling and prediction of the real dynamics and toxicity of HCBs. The present review intends to make a quick overview on current approaches to monitor cyanobacterial blooms and provide a tier-based integrative perspective for their application. A transversal monitoring at a wide scale should be enhanced but cannot rely only on pigment levels but rather include the specific and intraspecific diversity information that can be obtained from modern molecular tools. This is crucial to achieve the effective prediction, monitoring and management of HCBs under their increasing occurrence and severity trends in freshwaters. [ABSTRACT FROM AUTHOR]

Published

2024

7. Next-Generation Sequencing for Evaluating the Soil Nematode Diversity and Its Role in Composting Processes.

Author

Zapałowska, Anita, Skwiercz, Andrzej, Tereba, Anna, Puchalski, Czesław, and Malewski, Tadeusz

Subjects

*NEMATODES, *NUCLEOTIDE sequencing, *COMPOSTING, *POPULATION density, *SOILS, *ENVIRONMENTAL indicators

Abstract

Biodiversity within composting systems involves a variety of microorganisms including nematodes. In the research, nematode populations were monitored within six simultaneously operating composting processes. These processes involved varying proportions of feedstock materials. The primary objective was to evaluate the consistency of nematode community succession patterns across the composting processes over a time of 3 months. During the study, samples were taken every month to isolate nematodes, determine the population density of the five trophic groups (per genus) and determine the dominant nematode species. It was shown that the bacterial-feeding community maintained dominance, while the fungus-feeding nematodes gradually increased in dominance as the maturation process progressed. The presence of predatory nematodes Mononchoides which were initially absent, along with the total absence of parasitic nematodes in the late stages of waste stabilization, serves as strong evidence for the reliable evaluation of the biodegradable waste processing level. Based on the obtained results, it is evident that the succession of nematode communities holds promise as a reliable method for evaluating compost maturity. [ABSTRACT FROM AUTHOR]

Published

2023

8. Germplasm Diversity and Breeding Approaches for Genetic Improvement of Mungbean

Author

Laskar, Rafiul Amin, Dowarah, Bhaskar, Sheikh, Nilofer, Raina, Aamir, editor, Wani, Mohammad Rafiq, editor, Laskar, Rafiul Amin, editor, Tomlekova, Nasya, editor, and Khan, Samiullah, editor

Published

2023

9. Molecular Approaches for Biofortification of Cereal Crops

Author

Puren, Heresh, Reddy, Bodeddulla Jayasankar, Sarma, Akashi, Singh, Sushil Kumar, Ansari, Waquar Akhter, Deshmukh, Rupesh, editor, Nadaf, Altafhusain, editor, Ansari, Waquar Akhter, editor, Singh, Kashmir, editor, and Sonah, Humira, editor

Published

2023

10. Quinoa: A Promising Crop for Resolving the Bottleneck of Cultivation in Soils Affected by Multiple Environmental Abiotic Stresses

Author

Zahra Dehghanian, Mohammad Ahmadabadi, Behnam Asgari Lajayer, Vahideh Gougerdchi, Mohsen Hamedpour-Darabi, Nazila Bagheri, Ritika Sharma, Ramesh R. Vetukuri, Tess Astatkie, and Bernard Dell

Subjects

abiotic stresses, quinoa, gene expression, molecular approaches, physiological responses, Botany, QK1-989

Abstract

Quinoa (Chenopodium quinoa Willd.) has gained worldwide recognition for its nutritional values, adaptability to diverse environments, and genetic diversity. This review explores the current understanding of quinoa tolerance to environmental stress, focusing on drought, salinity, heat, heavy metals, and UV-B radiation. Although drought and salinity have been extensively studied, other stress factors remain underexplored. The ever-increasing incidence of abiotic stress, exacerbated by unpredictable weather patterns and climate change, underscores the importance of understanding quinoa’s responses to these challenges. Global gene banks safeguard quinoa’s genetic diversity, supporting breeding efforts to develop stress-tolerant varieties. Recent advances in genomics and molecular tools offer promising opportunities to improve stress tolerance and increase the yield potential of quinoa. Transcriptomic studies have shed light on the responses of quinoa to drought and salinity, yet further studies are needed to elucidate its resilience to other abiotic stresses. Quinoa’s ability to thrive on poor soils and limited water resources makes it a sustainable option for land restoration and food security enterprises. In conclusion, quinoa is a versatile and robust crop with the potential to address food security challenges under environmental constraints.

Published

2024

11. Genetic and Molecular Approaches for Management of Potato Viral Diseases and Their Vectors

Author

Raghavendra, K. V., Subash, S., Navik, Omprakash, Rao, G. Krishna, Gowthami, R., Sharma, Sanjeev, and Chakravarthy, A. K., editor

Published

2022

12. Enhancing Genetic Efficiency of Natural Enemies of Crop Pests

Author

Gopalkrishna, H. R., Chakravarthy, A. K., Prasad, H. N. Nagendra, and Chakravarthy, A. K., editor

Published

2022

13. Genetics and Genomics of Bombyx mori L.

Author

Sivaprasad, Vankadara, Chandrakanth, N., Moorthy, S. Manthira, and Chakravarthy, A. K., editor

Published

2022

14. Modern Diagnostic Tools for Rapid Detection of Multidrug Resistance

Author

Tehri, Nimisha, Kadyan, Saurabh, Singh, Tejinder P., Tehri, Piyush, Vashishth, Amit, Akhtar, Nadeem, editor, Singh, Kumar Siddharth, editor, Prerna, editor, and Goyal, Dinesh, editor

Published

2022

15. Recent research accomplishments on early detection of Xylella fastidiosa outbreaks in the Mediterranean Basin.

Author

VELASCO-AMO, MARÍA P., VICENT, ANTONIO, ZARCOTEJADA, PABLO J., NAVAS-CORTÉS, JUAN A., and LANDA, BLANCA B.

Subjects

*XYLELLA fastidiosa, *PHYTOPATHOGENIC microorganisms, *PLANT parasites, *THERMOGRAPHY, *REMOTE sensing

Abstract

Xylella fastidiosa is a major transboundary plant pest, causing severe socioeconomic impacts. Development of preventive strategies and methods for surveillance, early detection, monitoring, and accurate diagnosis of X. fastidiosa and its vectors, are keys to preventing the effects of this plant pathogen, and assist timely eradication or optimisation of containment measures. This review focuses on approaches for early detection of X. fastidiosa in the Mediterranean Basin, including development of climatic suitability risk maps to determine areas of potential establishment, and epidemiological models to assist in outbreak management through optimized surveillance and targeted responses. The usefulness of airborne hyperspectral and thermal images from remote sensing to discriminate X. fastidiosa infections from other biotic- and abioticinduced spectral signatures is also discussed. The most commonly used methods for identifying X. fastidiosa in infected plants and vectors, and the molecular approaches available to genetically characterize X. fastidiosa strains, are described. Each of these approaches has trade-offs, but stepwise or simultaneous combinations of these methods may help to contain X. fastidiosa epidemics in the Mediterranean Basin. [ABSTRACT FROM AUTHOR]

Published

2022

16. Molecular Approaches

Author

Trivedi, Mala, Gupta, Amrita, Singh, Aditi, Johri, Parul, Mathur, Manish, Tiwari, Rajesh K., and Omkar, editor

Published

2021

17. Methods of Strain Improvement for Crop Improvement

Author

Rawat, Jyoti, Pande, Veena, Bhatt, Pankaj, editor, Gangola, Saurabh, editor, Udayanga, Dhanushka, editor, and Kumar, Govind, editor

Published

2021

18. Quantifying Transmission Between Wild and Domestic Populations

Author

Martínez-López, Beatriz, Díaz-Cao, José Manuel, Pepin, Kim M., Lopez, Beatriz Arroyo, Series Editor, Gonzalez, Jesus Garcia, Series Editor, Soria, Rafael Mateo, Series Editor, Vicente, Joaquín, editor, Vercauteren, Kurt C., editor, and Gortázar, Christian, editor

Published

2021

19. Molecular Strategies for Managing Disease Resistance in Barley

Author

Malik, Rekha, Kumar, Pawan, Verma, RPS, Sheoran, Sonia, Kumar, Dinesh, Kumar, Lokendra, Gyawali, Sanjaya, Singh, G. P., and Kole, Chittaranjan, editor

Published

2021

20. Enhancement of nitrogen use efficiency through agronomic and molecular based approaches in cotton.

Author

Chattha, Muhammad Sohaib, Ali, Chattha, Haroon, Muhammad, Afzal, Muhammad Junaid, Javed, Talha, Hussain, Sadam, Mahmood, Tahir, Solanki, Manoj K., Umar, Aisha, Abbas, Waseem, Nasar, Shanza, Schwartz-Lazaro, Lauren M., and Lei Zhou

Subjects

COTTON, ESSENTIAL nutrients, NITROGEN, AGRICULTURAL productivity, ENVIRONMENTAL protection

Abstract

Cotton is a major fiber crop grown worldwide. Nitrogen (N) is an essential nutrient for cotton production and supports efficient crop production. It is a crucial nutrient that is required more than any other. Nitrogen management is a daunting task for plants; thus, various strategies, individually and collectively, have been adopted to improve its efficacy. The negative environmental impacts of excessive N application on cotton production have become harmful to consumers and growers. The 4R's of nutrient stewardship (right product, right rate, right time, and right place) is a newly developed agronomic practice that provides a solid foundation for achieving nitrogen use efficiency (NUE) in cotton production. Cropping systems are equally crucial for increasing production, profitability, environmental growth protection, and sustainability. This concept incorporates the right fertilizer source at the right rate, time, and place. In addition to agronomic practices, molecular approaches are equally important for improving cotton NUE. This could be achieved by increasing the efficacy of metabolic pathways at the cellular, organ, and structural levels and NUE-regulating enzymes and genes. This is a potential method to improve the role of N transporters in plants, resulting in better utilization and remobilization of N in cotton plants. Therefore, we suggest effective methods for accelerating NUE in cotton. This review aims to provide a detailed overview of agronomic and molecular approaches for improving NUE in cotton production, which benefits both the environment and growers. [ABSTRACT FROM AUTHOR]

Published

2022

21. The utility of transcriptomics in fish conservation.

Author

Connon, Richard E, Jeffries, Ken M, Komoroske, Lisa M, Todgham, Anne E, and Fangue, Nann A

Subjects

Animals, Fishes, Conservation of Natural Resources, Transcriptome, Conservation physiology, Endangered species, Molecular approaches, Genetics, Biotechnology, Human Genome, Generic Health Relevance, Physiology, Biological Sciences, Medical and Health Sciences

Abstract

There is growing recognition of the need to understand the mechanisms underlying organismal resilience (i.e. tolerance, acclimatization) to environmental change to support the conservation management of sensitive and economically important species. Here, we discuss how functional genomics can be used in conservation biology to provide a cellular-level understanding of organismal responses to environmental conditions. In particular, the integration of transcriptomics with physiological and ecological research is increasingly playing an important role in identifying functional physiological thresholds predictive of compensatory responses and detrimental outcomes, transforming the way we can study issues in conservation biology. Notably, with technological advances in RNA sequencing, transcriptome-wide approaches can now be applied to species where no prior genomic sequence information is available to develop species-specific tools and investigate sublethal impacts that can contribute to population declines over generations and undermine prospects for long-term conservation success. Here, we examine the use of transcriptomics as a means of determining organismal responses to environmental stressors and use key study examples of conservation concern in fishes to highlight the added value of transcriptome-wide data to the identification of functional response pathways. Finally, we discuss the gaps between the core science and policy frameworks and how thresholds identified through transcriptomic evaluations provide evidence that can be more readily used by resource managers.

Published

2018

22. Enhancement of nitrogen use efficiency through agronomic and molecular based approaches in cotton

Author

Muhammad Sohaib Chattha, Qurban Ali, Muhammad Haroon, Muhammad Junaid Afzal, Talha Javed, Sadam Hussain, Tahir Mahmood, Manoj K. Solanki, Aisha Umar, Waseem Abbas, Shanza Nasar, Lauren M. Schwartz-Lazaro, and Lei Zhou

Subjects

nitrogen use efficiency, cotton, nitrogen metabolism, molecular approaches, physiological approach, Plant culture, SB1-1110

Abstract

Cotton is a major fiber crop grown worldwide. Nitrogen (N) is an essential nutrient for cotton production and supports efficient crop production. It is a crucial nutrient that is required more than any other. Nitrogen management is a daunting task for plants; thus, various strategies, individually and collectively, have been adopted to improve its efficacy. The negative environmental impacts of excessive N application on cotton production have become harmful to consumers and growers. The 4R’s of nutrient stewardship (right product, right rate, right time, and right place) is a newly developed agronomic practice that provides a solid foundation for achieving nitrogen use efficiency (NUE) in cotton production. Cropping systems are equally crucial for increasing production, profitability, environmental growth protection, and sustainability. This concept incorporates the right fertilizer source at the right rate, time, and place. In addition to agronomic practices, molecular approaches are equally important for improving cotton NUE. This could be achieved by increasing the efficacy of metabolic pathways at the cellular, organ, and structural levels and NUE-regulating enzymes and genes. This is a potential method to improve the role of N transporters in plants, resulting in better utilization and remobilization of N in cotton plants. Therefore, we suggest effective methods for accelerating NUE in cotton. This review aims to provide a detailed overview of agronomic and molecular approaches for improving NUE in cotton production, which benefits both the environment and growers.

Published

2022

23. Biofortification of Iron, Zinc, and Selenium in Rice for Better Quality

Author

Ashraful Alam, M., Vemuri, Hindu, Hossain, Akbar, Abu Syed, M., Khorshed Alam, M., Rafiqul Islam, M., and Roychoudhury, Aryadeep, editor

Published

2020

24. Drought Stress Tolerance in Legume Crops

Author

Savita, Tomer, Ajay, Singh, Saurabh Kumar, and Hasanuzzaman, Mirza, editor

Published

2020

25. Translational Molecular Approaches in Substance Abuse Research

Author

Fulton, Sasha L., Maze, Ian, Barrett, James E., Editor-in-Chief, Flockerzi, Veit, Editorial Board Member, Frohman, Michael A., Editorial Board Member, Geppetti, Pierangelo, Editorial Board Member, Hofmann, Franz B., Editorial Board Member, Michel, Martin C., Editorial Board Member, Page, Clive P., Editorial Board Member, Wang, KeWei, Editorial Board Member, Nader, Michael A., editor, and Hurd, Yasmin L., editor

Published

2020

26. Downregulation of the enhancer of zeste homolog 1 transcriptional factor predicts poor prognosis of triple-negative breast cancer patients.

Author

Wei Peng, Wei Tang, Jian-Di Li, Rong-Quan He, Jia-Yuan Luo, Zu-Xuan Chen, Jiang-Hui Zeng, Xiao-Hua Hu, Jin-Cai Zhong, Yang Li, Fu-Chao Ma, Tian-Yi Xie, Su-Ning Huang, and Lian-Ying Ge

Subjects

TRIPLE-negative breast cancer, BREAST cancer prognosis, CANCER patients, RECEIVER operating characteristic curves, PROPORTIONAL hazards models, SURVIVAL analysis (Biometry), DOWNREGULATION

Abstract

Background: Triple-negative breast cancer (TNBC) is the most malignant subtype of breast cancer and lacks effective biomarkers. This study seeks to unravel the expression status and the prospective transcriptional mechanisms of EZH1/EZH2 in TNBC tissue samples. Moreover, another objective of this study is to reveal the prognostic molecular signatures for risk stratification in TNBC patients. Methods: To determine the expression status of EZH1/EZH2 in TNBC tissue samples, microarray analysis and immunohistochemistry were performed on in house breast cancer tissue samples. External mRNA expression matrices were used to verify its expression patterns. Furthermore, the prospective transcriptional mechanisms of EZH1/EZH2 in TNBC were explored by performing differential expression analysis, co-expression analysis, and chromatin immunoprecipitation sequencing analysis. Kaplan-Meier survival analysis and univariate Cox regression analysis were utilized to detect the prognostic molecular signatures in TNBC patients. Nomogram and time-dependent receiver operating characteristic curves were plotted to predict the risk stratification ability of the prognostic-signatures-based Cox model. Results: In-house TMAs (66 TNBC vs. 106 non-TNBC) and external gene microarrays, as well as RNA-seq datasets (1,135 TNBC vs. 6,198 non-TNBC) results, confirmed the downregulation of EZH1 at both the protein and mRNA levels (SMD = -0.59 [-0.80, -0.37]), as is opposite to that of EZH2 (SMD = 0.74 [0.40, 1.08]). The upregulated transcriptional target genes of EZH1 were significantly aggregated in the cell cycle pathway, where CCNA2, CCNB1, MAD2L1, and PKMYT1 were determined as key transcriptional targets. Additionally, the downregulated transcriptional targets of EZH2 were enriched in response to the hormone, where ESR1 was identified as the hub gene. The six-signature-based prognostic model produced an impressive performance in this study, with a training AUC of 0.753, 0.981, and 0.977 at 3-, 5-, and 10-year survival probability, respectively. Conclusion: EZH1 downregulation may be a key modulator in the progression of TNBC through negative transcriptional regulation by targeting CCNA2, CCNB1, MAD2L1, and PKMYT1. [ABSTRACT FROM AUTHOR]

Published

2022

27. Using Molecular Tools to Understand Microbial Carbonates.

Author

Cutts, Elise M., Baldes, Matthew J., Skoog, Emilie J., Hall, James, Gong, Jian, Moore, Kelsey R., and Bosak, Tanja

Subjects

ENVIRONMENTAL chemistry, FUNCTIONAL groups, NUCLEOTIDE sequencing, CARBONATES, BIOMINERALIZATION

Abstract

Here we review the application of molecular biological approaches to mineral precipitation in modern marine microbialites. The review focuses on the nearly two decades of nucleotide sequencing studies of the microbialites of Shark Bay, Australia; and The Bahamas. Molecular methods have successfully characterized the overall community composition of mats, pinpointed microbes involved in key metabolisms, and revealed patterns in the distributions of microbial groups and functional genes. Molecular tools have become widely accessible, and we can now aim to establish firmer links between microbes and mineralization. Two promising future directions include "zooming in" to assess the roles of specific organisms, microbial groups, and surfaces in carbonate biomineralization and "zooming out" to consider broader spans of space and time. A middle ground between the two can include model systems that contain representatives of important microbial groups, processes, and metabolisms in mats and simplify hypothesis testing. These directions will benefit from expanding reference datasets of marine microbes and enzymes and enrichments of representative microbes from mats. Such applications of molecular tools should improve our ability to interpret ancient and modern microbialites and increase the utility of these rocks as long-term recorders of microbial processes and environmental chemistry. [ABSTRACT FROM AUTHOR]

Published

2022

28. Recent Advances in Agronomic and Physio-Molecular Approaches for Improving Nitrogen Use Efficiency in Crop Plants.

Author

Javed, Talha, I, Indu, Singhal, Rajesh Kumar, Shabbir, Rubab, Shah, Adnan Noor, Kumar, Pawan, Jinger, Dinesh, Dharmappa, Prathibha M., Shad, Munsif Ali, Saha, Debanjana, Anuragi, Hirdayesh, Adamski, Robert, and Siuta, Dorota

Subjects

CROPS, LEAF color, ARABLE land, PRECISION farming, FERTILIZERS, SOIL degradation, PLANT nutrition

Abstract

The efficiency with which plants use nutrients to create biomass and/or grain is determined by the interaction of environmental and plant intrinsic factors. The major macronutrients, especially nitrogen (N), limit plant growth and development (1.5–2% of dry biomass) and have a direct impact on global food supply, fertilizer demand, and concern with environmental health. In the present time, the global consumption of N fertilizer is nearly 120 MT (million tons), and the N efficiency ranges from 25 to 50% of applied N. The dynamic range of ideal internal N concentrations is extremely large, necessitating stringent management to ensure that its requirements are met across various categories of developmental and environmental situations. Furthermore, approximately 60 percent of arable land is mineral deficient and/or mineral toxic around the world. The use of chemical fertilizers adds to the cost of production for the farmers and also increases environmental pollution. Therefore, the present study focused on the advancement in fertilizer approaches, comprising the use of biochar, zeolite, and customized nano and bio-fertilizers which had shown to be effective in improving nitrogen use efficiency (NUE) with lower soil degradation. Consequently, adopting precision farming, crop modeling, and the use of remote sensing technologies such as chlorophyll meters, leaf color charts, etc. assist in reducing the application of N fertilizer. This study also discussed the role of crucial plant attributes such as root structure architecture in improving the uptake and transport of N efficiency. The crosstalk of N with other soil nutrients plays a crucial role in nutrient homeostasis, which is also discussed thoroughly in this analysis. At the end, this review highlights the more efficient and accurate molecular strategies and techniques such as N transporters, transgenes, and omics, which are opening up intriguing possibilities for the detailed investigation of the molecular components that contribute to nitrogen utilization efficiency, thus expanding our knowledge of plant nutrition for future global food security. [ABSTRACT FROM AUTHOR]

Published

2022

29. Molecular Approaches in Fetal Malformations, Dynamic Anomalies and Soft Markers: Diagnostic Rates and Challenges—Systematic Review of the Literature and Meta-Analysis.

Author

Mastromoro, Gioia, Guadagnolo, Daniele, Khaleghi Hashemian, Nader, Marchionni, Enrica, Traversa, Alice, and Pizzuti, Antonio

Subjects

*FETAL abnormalities, *HUMAN abnormalities, *NUCLEOTIDE sequencing, *CYTOGENETICS

Abstract

Fetal malformations occur in 2–3% of pregnancies. They require invasive procedures for cytogenetics and molecular testing. "Structural anomalies" include non-transient anatomic alterations. "Soft markers" are often transient minor ultrasound findings. Anomalies not fitting these definitions are categorized as "dynamic". This meta-analysis aims to evaluate the diagnostic yield and the rates of variants of uncertain significance (VUSs) in fetuses undergoing molecular testing (chromosomal microarray (CMA), exome sequencing (ES), genome sequencing (WGS)) due to ultrasound findings. The CMA diagnostic yield was 2.15% in single soft markers (vs. 0.79% baseline risk), 3.44% in multiple soft markers, 3.66% in single structural anomalies and 8.57% in multiple structural anomalies. Rates for specific subcategories vary significantly. ES showed a diagnostic rate of 19.47%, reaching 27.47% in multiple structural anomalies. WGS data did not allow meta-analysis. In fetal structural anomalies, CMA is a first-tier test, but should be integrated with karyotype and parental segregations. In this class of fetuses, ES presents a very high incremental yield, with a significant VUSs burden, so we encourage its use in selected cases. Soft markers present heterogeneous CMA results from each other, some of them with risks comparable to structural anomalies, and would benefit from molecular analysis. The diagnostic rate of multiple soft markers poses a solid indication to CMA. [ABSTRACT FROM AUTHOR]

Published

2022

30. Historical Notes, Germplasm Development, and Molecular Approaches to Support Sugarcane Breeding Program in Indonesia.

Author

Widyasari, Wiwit Budi, Putra, Lilik Koesmihartono, Ranomahera, Muhammad Rasyid Ridla, and Puspitasari, Arinta Rury

Abstract

In Indonesia, sugarcane and sugar production during the last ten years (2010–2019) fluctuated considerably and showed a declining trend due to several reasons. The achievements of sugarcane production were mainly influenced by the availability of superior sugarcane varieties developed by the domestic sugarcane breeding programs. Historically, sugarcane breeding in Indonesia was started during the Dutch era in the late nineteenth century by Het Proefstation Oost Java (POJ) and the great achievements were the discovery of 'wonder cane' POJ 2878 and POJ 3016. Breeding activities carried out by the Indonesian Sugar Research Institute (ISRI), as the successor of POJ, are aimed to address different challenges including those arising from moving sugarcane production from paddy fields to dry and marginal lands, increasing ratoons, and managing climate change and biotic and abiotic stresses. Currently, ISRI is facing serious financial problems, which made breeding activities less optimal. Consequently, germplasm collection, number of crossing, seedling and clone selection, and the number of new released sugarcane varieties in the last 10 years decreased considerably. The decline of ISRI's breeding activities has prompted several other institutions to carry out breeding programs, namely PT Gunung Madu Plantation, Jengkol Sugar Research Centre of PTPN X, Sukosari Research Centre of PTPN XI, and the Indonesian Sweeteners and Fiber Crops Research Institute (ISFCRI). In principle, the objective of all the breeding programs is to obtain superior varieties with the characteristics as expected by the cane growers such as high cane yield and sugar content, good ratooning ability, resistant to systemic diseases, and borer as well as drought tolerant. Currently, the majority commercial sugarcane varieties planted by cane growers are the old varieties that was released more than 10 years ago, and the most dominant variety is Bululawang (BL). The average sugarcane yield is around 70 t/ha and sugar yield of 5.4 t/ha, which are much lower than that of other sugar producing countries. To improve sugar production several new superior varieties have been released by all the institution during the last 5 years, but the development of those varieties on commercial scale is still limited. In the future, collaboration among the existing sugarcane breeding agencies needs to be improved so that the breeding program could run efficiently and effectively. This review briefly describes the history, obstacles, and challenges of breeding program, as well as molecular approaches and current commercial varieties in Indonesia. [ABSTRACT FROM AUTHOR]

Published

2022

31. The emergence of Pantoea species as a future threat to global rice production

Author

Mohammad Malek Faizal Azizi, Siti Izera Ismail, Md Yasin Ina-Salwany, Erneeza Mohd Hata, and Dzarifah Zulperi

Subjects

bacterial leaf blight, grain discoloration, inhibition of seed germination, molecular approaches, pantoea species, Plant culture, SB1-1110

Abstract

Pantoea species (Pantoea spp.) is a diverse group of Gram-negative bacteria in the Enterobacteriaceae family that leads to devastating diseases in rice plants, thus affecting significant economic losses of rice production worldwide. Most critical rice diseases such as grain discoloration, bacterial leaf blight, stem necrosis and inhibition of seed germination have been reported to be caused by this pathogen. To date, 20 Pantoea spp. have been identified and recognized as having similar phenotypic and diverse characteristics. Detection via phenotypic and molecular-based approaches, for example the polymerase chain reaction (PCR) and multiplex PCR give us a better understanding of the diversity of Pantoea genus and helps to improve effective disease control strategies against this emergent bacterial pathogen of rice. In this review, we focused on the significance of rice diseases caused by Pantoea spp. and insights on the taxonomy and characteristics of this destructive pathogen via phenotypic and molecular identification.

Published

2020

32. Recent Advances in Agronomic and Physio-Molecular Approaches for Improving Nitrogen Use Efficiency in Crop Plants

Author

Talha Javed, Indu I, Rajesh Kumar Singhal, Rubab Shabbir, Adnan Noor Shah, Pawan Kumar, Dinesh Jinger, Prathibha M. Dharmappa, Munsif Ali Shad, Debanjana Saha, Hirdayesh Anuragi, Robert Adamski, and Dorota Siuta

Subjects

agriculture, nitrogen use efficiency, climate change, sustainability, molecular approaches, Plant culture, SB1-1110

Abstract

The efficiency with which plants use nutrients to create biomass and/or grain is determined by the interaction of environmental and plant intrinsic factors. The major macronutrients, especially nitrogen (N), limit plant growth and development (1.5–2% of dry biomass) and have a direct impact on global food supply, fertilizer demand, and concern with environmental health. In the present time, the global consumption of N fertilizer is nearly 120 MT (million tons), and the N efficiency ranges from 25 to 50% of applied N. The dynamic range of ideal internal N concentrations is extremely large, necessitating stringent management to ensure that its requirements are met across various categories of developmental and environmental situations. Furthermore, approximately 60 percent of arable land is mineral deficient and/or mineral toxic around the world. The use of chemical fertilizers adds to the cost of production for the farmers and also increases environmental pollution. Therefore, the present study focused on the advancement in fertilizer approaches, comprising the use of biochar, zeolite, and customized nano and bio-fertilizers which had shown to be effective in improving nitrogen use efficiency (NUE) with lower soil degradation. Consequently, adopting precision farming, crop modeling, and the use of remote sensing technologies such as chlorophyll meters, leaf color charts, etc. assist in reducing the application of N fertilizer. This study also discussed the role of crucial plant attributes such as root structure architecture in improving the uptake and transport of N efficiency. The crosstalk of N with other soil nutrients plays a crucial role in nutrient homeostasis, which is also discussed thoroughly in this analysis. At the end, this review highlights the more efficient and accurate molecular strategies and techniques such as N transporters, transgenes, and omics, which are opening up intriguing possibilities for the detailed investigation of the molecular components that contribute to nitrogen utilization efficiency, thus expanding our knowledge of plant nutrition for future global food security.

Published

2022

33. Effect of rhizosphere microbiome on different crop growing fields in various rice cultivars and its molecular approaches for sustainable agro-ecosystem.

Author

Nahar, Sharmin, Hasan, Md. Faruk, Sikdar, Biswanath, and Islam, Md. Asadul

Abstract

The present investigation was carried out to investigate the effects of rhizosphere bacteria on growth and rice yields. Also, isolation and identification of rhizospheric bacterial treatments rhizosphere soil, mixed bulk, and fertilized soils. Soil analysis showed a maximum pH of 8.46 in rhizosphere soil of Sada dhepa. Nitrogen content of the rhizosphere soil of Latif sayil showed 0.18% maximum result. In-plant growth and yield, 87.37 cm leaf length, 28.83 cm panicle length, and 2.32 gm 100 seed weight in rhizosphere soil of Latif sayil were observed. Five different rhizobial bacteria Rhizobium tropici, Rhizobium leguminosarum, Rhizobium freirei, Rhizobium oryzae, Bacillus subtilis were isolated from the rhizosphere. Mixed treatment on Azospirillum largimobile, Azotobacter chroococcum, Rhizobium leguminosarum, Pseudomonas fluorescens were isolated from the rhizosphere. Mixed treatment was significantly similar to Rhizobium tropici and Azotobacter chroococcum by a maximum of 82.32% and 86.19%, respectively. Our results indicate that selected rhizobial strains promote rice growth and yields that could be harnessed to practical benefit for the farmer and are consistent with sustainable agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2021

34. A previously unreported potential malaria vector in a dry ecology of Kenya

Author

Edwin O. Ogola, Edith Chepkorir, Rosemary Sang, and David P. Tchouassi

Subjects

Anopheles funestus group, Malaria transmission, Entomological surveillance, Molecular approaches, Dry ecology, Kenya, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background In Kenya, malaria remains a major public health menace equally affecting the semi-arid to arid ecologies. However, entomologic knowledge of malaria vectors in such areas remains poor. Methods Morphologically-identified wild-caught Anopheles funestus (s.l.) specimens trapped outdoors from the semi-arid to arid area of Kacheliba, West Pokot County, Kenya, were analysed by PCR and sequencing for species identification, malaria parasite infection and host blood-meal sources. Results Three hundred and thirty specimens were analysed to identify sibling species of the An. funestus group, none of which amplified using the available primers; two were infected with Plasmodium falciparum and Plasmodium ovale, separately, while 84% (n = 25) of the blood-fed specimens had fed on humans. Mitochondrial cytochrome c oxidase subunit 1 (cox1) and nuclear ribosomal internal transcribed spacer 2 (ITS2) sequences of 55 specimens (Plasmodium-positive, blood-fed and Plasmodium-negative) did not match reference sequences, possibly suggesting a previously unreported species, resolving as two clades. Conclusions Our findings indicate the existence of yet-to-be identified and described anopheline species with a potential as malaria vectors in Kenya.

Published

2019

35. Recurrent Vulvovaginal Infections: Etiology, Diagnosis, Treatment and Management

Author

Singh, Jatinder, Kalia, Namarta, Kaur, Manpreet, and Singh, Prati Pal, editor

Published

2018

36. Endophytic Nanotechnology: An Approach to Study Scope and Potential Applications

Author

Mukesh Meena, Andleeb Zehra, Prashant Swapnil, Harish, Avinash Marwal, Garima Yadav, and Priyankaraj Sonigra

Subjects

nanotechnology, nanoparticles, crop yield, genetic engineering, molecular approaches, gene carriers, Chemistry, QD1-999

Abstract

Nanotechnology has become a very advanced and popular form of technology with huge potentials. Nanotechnology has been very well explored in the fields of electronics, automobiles, construction, medicine, and cosmetics, but the exploration of nanotecnology’s use in agriculture is still limited. Due to climate change, each year around 40% of crops face abiotic and biotic stress; with the global demand for food increasing, nanotechnology is seen as the best method to mitigate challenges in disease management in crops by reducing the use of chemical inputs such as herbicides, pesticides, and fungicides. The use of these toxic chemicals is potentially harmful to humans and the environment. Therefore, using NPs as fungicides/ bactericides or as nanofertilizers, due to their small size and high surface area with high reactivity, reduces the problems in plant disease management. There are several methods that have been used to synthesize NPs, such as physical and chemical methods. Specially, we need ecofriendly and nontoxic methods for the synthesis of NPs. Some biological organisms like plants, algae, yeast, bacteria, actinomycetes, and fungi have emerged as superlative candidates for the biological synthesis of NPs (also considered as green synthesis). Among these biological methods, endophytic microorganisms have been widely used to synthesize NPs with low metallic ions, which opens a new possibility on the edge of biological nanotechnology. In this review, we will have discussed the different methods of synthesis of NPs, such as top-down, bottom-up, and green synthesis (specially including endophytic microorganisms) methods, their mechanisms, different forms of NPs, such as magnesium oxide nanoparticles (MgO-NPs), copper nanoparticles (Cu-NPs), chitosan nanoparticles (CS-NPs), β-d-glucan nanoparticles (GNPs), and engineered nanoparticles (quantum dots, metalloids, nonmetals, carbon nanomaterials, dendrimers, and liposomes), and their molecular approaches in various aspects. At the molecular level, nanoparticles, such as mesoporous silica nanoparticles (MSN) and RNA-interference molecules, can also be used as molecular tools to carry genetic material during genetic engineering of plants. In plant disease management, NPs can be used as biosensors to diagnose the disease.

Published

2021

37. Microbial Forensics: An Overview

Author

Rath, Shakti, Manna, Sanjeet, and Panda, Sangram

Published

2019

38. Using Molecular Tools to Understand Microbial Carbonates

Author

Elise M. Cutts, Matthew J. Baldes, Emilie J. Skoog, James Hall, Jian Gong, Kelsey R. Moore, and Tanja Bosak

Subjects

microbialites, microbial carbonates, photosynthesis, exopolymeric substances, molecular approaches, carbonate textures, Geology, QE1-996.5

Abstract

Here we review the application of molecular biological approaches to mineral precipitation in modern marine microbialites. The review focuses on the nearly two decades of nucleotide sequencing studies of the microbialites of Shark Bay, Australia; and The Bahamas. Molecular methods have successfully characterized the overall community composition of mats, pinpointed microbes involved in key metabolisms, and revealed patterns in the distributions of microbial groups and functional genes. Molecular tools have become widely accessible, and we can now aim to establish firmer links between microbes and mineralization. Two promising future directions include “zooming in” to assess the roles of specific organisms, microbial groups, and surfaces in carbonate biomineralization and “zooming out” to consider broader spans of space and time. A middle ground between the two can include model systems that contain representatives of important microbial groups, processes, and metabolisms in mats and simplify hypothesis testing. These directions will benefit from expanding reference datasets of marine microbes and enzymes and enrichments of representative microbes from mats. Such applications of molecular tools should improve our ability to interpret ancient and modern microbialites and increase the utility of these rocks as long-term recorders of microbial processes and environmental chemistry.

Published

2022

39. Insights into malaria transmission among Anopheles funestus mosquitoes, Kenya

Author

Edwin O. Ogola, Ulrike Fillinger, Isabella M. Ondiba, Jandouwe Villinger, Daniel K. Masiga, Baldwyn Torto, and David P. Tchouassi

Subjects

Anopheles funestus group, Anopheles longipalpis C, Malaria parasite transmission, Molecular approaches, Entomological surveillance, Kenya, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Most malaria vectors belong to species complexes. Sibling species often exhibit divergent behaviors dictating the measures that can be deployed effectively in their control. Despite the importance of the Anopheles funestus complex in malaria transmission in sub-Saharan Africa, sibling species have rarely been identified in the past and their vectoring potential remains understudied. Methods We analyzed 1149 wild-caught An. funestus (senso lato) specimens from 21 sites in Kenya, covering the major malaria endemic areas including western, central and coastal areas. Indoor and outdoor collection tools were used targeting host-seeking and resting mosquitoes. The identity of sibling species, infection with malaria Plasmodium parasites, and the host blood meal sources of engorged specimens were analyzed using PCR-based and sequencing methods. Results The most abundant sibling species collected in all study sites were Anopheles funestus (59.8%) and Anopheles rivulorum (32.4%) among the 1062 successfully amplified specimens of the An. funestus complex. Proportionally, An. funestus dominated in indoor collections whilst An. rivulorum dominated in outdoor collections. Other species identified were Anopheles leesoni (4.6%), Anopheles parensis (2.4%), Anopheles vaneedeni (0.1%) and for the first time in Kenya, Anopheles longipalpis C (0.7%). Anopheles funestus had an overall Plasmodium infection rate of 9.7% (62/636), predominantly Plasmodium falciparum (59), with two infected with Plasmodium ovale and one with Plasmodium malariae. There was no difference in the infection rate between indoor and outdoor collections. Out of 344 An. rivulorum, only one carried P. falciparum. We also detected P. falciparum infection in two non-blood-fed An. longipalpis C (2/7) which is the first record for this species in Kenya. The mean human blood indices for An. funestus and An. rivulorum were 68% (93/136) and 64% (45/70), respectively, with feeding tendencies on a broad host range including humans and domestic animals such as cow, goat, sheep, chicken and pig. Conclusions Our findings underscore the importance of active surveillance through application of molecular approaches to unravel novel parasite-vector associations possibly contributed by cryptic species with important implications for effective malaria control and elimination.

Published

2018

40. Breeding for Stem Borer and Gall Midge Resistance in Rice

Author

Makkar, Gurpreet Singh, Bentur, J. S., Arora, Ramesh, editor, and Sandhu, Surinder, editor

Published

2017

41. Freshwater phytoplankton diversity: models, drivers and implications for ecosystem properties.

Author

Borics, Gábor, Abonyi, András, Salmaso, Nico, and Ptacnik, Robert

Subjects

*FRESHWATER phytoplankton, *COEXISTENCE of species, *COMPETITION (Biology), *ECOSYSTEMS, *MICROBIAL diversity, *SPECIES diversity

Abstract

Our understanding on phytoplankton diversity has largely been progressing since the publication of Hutchinson on the paradox of the plankton. In this paper, we summarise some major steps in phytoplankton ecology in the context of mechanisms underlying phytoplankton diversity. Here, we provide a framework for phytoplankton community assembly and an overview of measures on taxonomic and functional diversity. We show how ecological theories on species competition together with modelling approaches and laboratory experiments helped understand species coexistence and maintenance of diversity in phytoplankton. The non-equilibrium nature of phytoplankton and the role of disturbances in shaping diversity are also discussed. Furthermore, we discuss the role of water body size, productivity of habitats and temperature on phytoplankton species richness, and how diversity may affect the functioning of lake ecosystems. At last, we give an insight into molecular tools that have emerged in the last decades and argue how it has broadened our perspective on microbial diversity. Besides historical backgrounds, some critical comments have also been made. [ABSTRACT FROM AUTHOR]

Published

2021

42. Application of SWATH mass spectrometry in the identification of circulating proteins does not predict future weight gain in early psychosis.

Author

Heald, Adrian, Azadbakht, Narges, Geary, Bethany, Conen, Silke, Fachim, Helene, Lee, Dave Chi Hoo, Geifman, Nophar, Farman, Sanam, Howes, Oliver, Whetton, Anthony, and Deakin, Bill

Subjects

*WEIGHT gain, *PROTEOMICS, *PATIENT compliance, *PRINCIPAL components analysis, *MASS spectrometry, *HIERARCHICAL clustering (Cluster analysis)

Abstract

Weight gain is a common consequence of treatment with antipsychotic drugs in early psychosis, leading to further morbidity and poor treatment adherence. Identifying tools that can predict weight change in early psychosis may contribute to better-individualised treatment and adherence. Recently we showed that proteomic profiling with sequential window acquisition of all theoretical fragment ion spectra (SWATH) mass spectrometry (MS) can identify individuals with pre-diabetes more likely to experience weight change in relation to lifestyle change. We investigated whether baseline proteomic profiles predicted weight change over time using data from the BeneMin clinical trial of the anti-inflammatory antibiotic, minocycline, versus placebo. Expression levels for 844 proteins were determined by SWATH proteomics in 83 people (60 men and 23 women). Hierarchical clustering analysis and principal component analysis of baseline proteomics data did not reveal distinct separation between the proteome profiles of participants in different weight change categories. However, individuals with the highest weight loss had higher Positive and Negative Syndrome Scale (PANSS) scores. Our findings imply that mode of treatment i.e. the pharmacological intervention for psychosis may be the determining factor in weight change after diagnosis, rather than predisposing proteomic dynamics. [ABSTRACT FROM AUTHOR]

Published

2020

43. The emergence of Pantoea species as a future threat to global rice production.

Author

Azizi, Mohammad Malek Faizal, Ismail, Siti Izera, Ina-Salwany, Md Yasin, Hata, Erneeza Mohd, and Zulperi, Dzarifah

Subjects

RICE, SPECIES, POLYMERASE chain reaction, PLANT diseases, GERMINATION

Abstract

Pantoea species (Pantoea spp.) is a diverse group of Gram-negative bacteria in the Enterobacteriaceae family that leads to devastating diseases in rice plants, thus affecting significant economic losses of rice production worldwide. Most critical rice diseases such as grain discoloration, bacterial leaf blight, stem necrosis and inhibition of seed germination have been reported to be caused by this pathogen. To date, 20 Pantoea spp. have been identified and recognized as having similar phenotypic and diverse characteristics. Detection via phenotypic and molecular-based approaches, for example the polymerase chain reaction (PCR) and multiplex PCR give us a better understanding of the diversity of Pantoea genus and helps to improve effective disease control strategies against this emergent bacterial pathogen of rice. In this review, we focused on the significance of rice diseases caused by Pantoea spp. and insights on the taxonomy and characteristics of this destructive pathogen via phenotypic and molecular identification. [ABSTRACT FROM AUTHOR]

Published

2020

44. Surface reactivity of nanoporous carbons: preparation and physicochemical characterization of sulfonated activated carbon fibers.

Author

Grishchenko, Liudmyla M., Diyuk, Vitaliy E., Mariychuk, Ruslan T., Vakaliuk, Anna V., Radkevich, Valentina Z., Khaminets, Siarhei G., Mischanchuk, Oleksandr V., and Lisnyak, Vladyslav V.

Subjects

DEHYDRATION reactions, ACTIVATED carbon, CARBON fibers, PORE size distribution, PROPANOLS, SULFIDATION, SULFONATION

Abstract

Here, we have examined the nanoporous activated carbon fibers (ACFs) sulfonated using the direct sulfonation and the staged method that included bromination, followed by sulfidation and oxidation. TEM confirmed the nanoporous structure of the prepared sulfonated ACFs. Nitrogen porometry and 2D nonlocal DFT simulations showed the nanoporosity reduction and variations of the pore size distribution because of the functionalization. Comparison of parameters of the SO3H groups confined in nanopores, e.g., the thermal stability and catalytic potential, showed that the most efficient acid sites, in the catalytic 2-propanol dehydration to propylene, are the SO3H groups grafted by the staged Houben–Weil methods. From the productivity of reactions used at the preparation stage, and in contrast to the one-staged aromatic substitution, the bromine addition to π sites of the edges of carbon matrix supplies enough active sites and is a reason for further high yields of the grafted thermostable SO3H groups. Hydrolysis of the grafted bromine and the surface oxidation of nanopores walls are parallel reactions that lowered the SO3H-related acidity, increasing the total acidity to 1.5 mmol g−1. The reported nanoporous sulfonated ACFs are effective to be used in the dehydration reactions catalyzed by solid acids. [ABSTRACT FROM AUTHOR]

Published

2020

45. Identification and salt tolerance evaluation of endophyte fungi isolates from halophyte plants.

Author

Jalili, B., Bagheri, H., Azadi, S., and Soltani, J.

Abstract

The harsh environments of desert areas lead to natural selection of resistant creatures with obvious characteristics. This experiment looked for salt-tolerant fungi from native halophyte plants. Forty fungi isolated from three halophyte plant families that were collected from desert areas of Yazd Province in Iran, and the most tolerant isolates were selected at concentrations of 1, 2, 3, 3.5 and 4 molar sodium chloride. Five selected superior isolates were assigned to the phylum Ascomycota based on internal transcribed spacers sequences and β-tubulin gene, as well as morphological characteristics of the genus and species. Aspergillus terreus showed superiority in terms of enzymes and antibacterial properties than other isolates. Other isolates were Acremonium, Paecilomyces, Microascus and Monosorascus. Aspergillus terreus also showed antifungal effects against Aspergillus fumigatus, a human pathogen. [ABSTRACT FROM AUTHOR]

Published

2020

46. WGEUROBUS – Working Group "Towards a EURopean OBservatory of the non-indigenous calanoid copepod Pseudodiaptomus marinUS".

Author

Uttieri, M., Aguzzi, L., Aiese Cigliano, R., Amato, A., Bojanić, N., Brunetta, M., Camatti, E., Carotenuto, Y., Damjanović, T., Delpy, F., de Olazabal, A., Di Capua, I., Falcão, J., Fernandez de Puelles, M. L., Foti, G., Garbazey, O., Goruppi, A., Gubanova, A., Hubareva, E., and Iriarte, A.

Abstract

Since 2007, the non-indigenous calanoid copepod Pseudodiaptomus marinus Sato, 1913 has been increasingly recorded in numerous European sites, spreading at an unexpectedly fast pace over a short time-span. This species presents specific biological and behavioural traits which make it of particular interest for ecological and applied research topics. On 29–30 January 2018, 29 scientists from nine European Countries established the EUROBUS (Towards a EURopean OBservatory of the non-indigenous calanoid copepod Pseudodiaptomus marinUS) Working Group (WG). This WG aimed at creating a European network of institutions and researchers working on the various aspects of the biology and ecology of P. marinus, with an open forum where sharing experience and know-how among WG participants. This brought to an updated distribution map of P. marinus in European waters, as well as to the identification of priority research lines and potential joint initiatives under the WGEUROBUS umbrella. This contribution, stemming from the experts participating at the WG, represents the manifesto of the current and future initiatives developed within WGEUROBUS. [ABSTRACT FROM AUTHOR]

Published

2020

47. New approaches for characterization of the genetic stability of vaccine cell lines

Author

Siemon Ng, Lucy Gisonni-Lex, and Ali Azizi

Subjects

cell lines, genetic stability, molecular approaches, transgenes, vaccines, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

The genetic stability of cell lines is a critical analytical attribute required to demonstrate the quality of cells over time. During cell passage, mutations can arise in the genomic DNA, potentially leading to changes in the final vaccine product. The identity and integrity of master cell banks, extended cell banks, complementing cell lines or recombinant cell lines expressing transgenes has to be tested throughout the production process by the vaccine manufacturer. Over the past few years, the traditional methods for evaluation of genetic stability have been replaced with molecular approaches including quantitative PCR, digital PCR and high throughput sequencing. However, these molecular-based approaches are used in research laboratories and not within a GMP-compliant environment. In this article, we briefly discuss some opportunities and challenges in characterization of the genetic stability of vaccine cell lines with these molecular-based approaches.

Published

2017

48. Recent research accomplishments on early detection of Xylella fastidiosa outbreaks in the Mediterranean Basin

Author

European Commission, Agencia Estatal de Investigación (España), CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Interprofesional del Aceite de Oliva Español, Junta de Andalucía, Consejo Superior de Investigaciones Científicas (España), Velasco-Amo, María Pilar [0000-0001-7176-0435], Vicent, Antonio [0000-0002-3848-0631], Zarcotejada, Pablo J. [0000-0003-1433-6165], Navas Cortés, Juan Antonio [0000-0001-6480-1104], Landa, Blanca B. [0000-0002-9511-3731], Velasco-Amo, María Pilar, Vicent, Antonio, Zarco-Tejada, Pablo J., Navas Cortés, Juan Antonio, Landa, Blanca B., European Commission, Agencia Estatal de Investigación (España), CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Interprofesional del Aceite de Oliva Español, Junta de Andalucía, Consejo Superior de Investigaciones Científicas (España), Velasco-Amo, María Pilar [0000-0001-7176-0435], Vicent, Antonio [0000-0002-3848-0631], Zarcotejada, Pablo J. [0000-0003-1433-6165], Navas Cortés, Juan Antonio [0000-0001-6480-1104], Landa, Blanca B. [0000-0002-9511-3731], Velasco-Amo, María Pilar, Vicent, Antonio, Zarco-Tejada, Pablo J., Navas Cortés, Juan Antonio, and Landa, Blanca B.

Abstract

Xylella fastidiosa is a major transboundary plant pest, causing severe socioeconomic impacts. Development of preventive strategies and methods for surveillance, early detection, monitoring, and accurate diagnosis of X. fastidiosa and its vectors, are keys to preventing the effects of this plant pathogen, and assist timely eradication or optimisation of containment measures. This review focuses on approaches for early detection of X. fastidiosa in the Mediterranean Basin, including development of climatic suitability risk maps to determine areas of potential establishment, and epidemiological models to assist in outbreak management through optimized surveillance and targeted responses. The usefulness of airborne hyperspectral and thermal images from remote sensing to discriminate X. fastidiosa infections from other biotic and abioticinduced spectral signatures is also discussed. The most commonly used methods for identifying X. fastidiosa in infected plants and vectors, and the molecular approaches available to genetically characterize X. fastidiosa strains, are described. Each of these approaches has trade-offs, but stepwise or simultaneous combinations of these methods may help to contain X. fastidiosa epidemics in the Mediterranean Basin.

Published

2023

49. Molecular Approaches to Treating Pediatric Leukemias

Author

Michaela Kuhlen, Jan-Henning Klusmann, and Jessica I. Hoell

Subjects

leukemia, children, targeted therapy, precision medicine, molecular approaches, Pediatrics, RJ1-570

Abstract

Over the past decades, striking progress has been made in the treatment of pediatric leukemia, approaching 90% overall survival in children with acute lymphoblastic leukemia (ALL) and 75% in children with acute myeloid leukemia (AML). This has mainly been achieved through multiagent chemotherapy including CNS prophylaxis and risk-adapted therapy within collaborative clinical trials. However, prognosis in children with refractory or relapsed leukemia remains poor and has not significantly improved despite great efforts. Hence, more effective and less toxic therapies are urgently needed. Our understanding of disease biology, molecular drivers, drug resistance and, thus, the possibility to identify children at high-risk for treatment failure has significantly improved in recent years. Moreover, several new drugs targeting key molecular pathways involved in leukemia development, cell growth, and proliferation have been developed and approved. These striking achievements are linked to the great hope to further improve survival in children with refractory and relapsed leukemia. This review gives an overview on current molecularly targeted therapies in children with leukemia, including kinase, and proteasome inhibitors, epigenetic and enzyme targeting, as well as apoptosis regulators among others.

Published

2019

50. Molecular Approaches for the Improvement of Bacillus thuringiensis Against Pests

Author

Patel, Ankit, Pathak, Leena, Parvez, Noushad, Panpatte, Deepak, Khatri, Kuldeep, Jani, Janardan, and Chakravarthy, Akshay Kumar, editor

Published

2015