Category Archives: REVIEW ARTICLE

A streak through history: Solving the riddle of chlorotic streak disease of sugarcane

Posted on 4 September 2023 by nRuby G. Earsman, nAnthony J. Youngn

This review spans the 90 years that passed between the emergence of chlorotic streak disease of sugarcane and the discovery of its pathogen in 2018, and provides epidemiological information on the disease and its management.

Abstract

Until recently, the identity of the pathogen of chlorotic streak disease (CSD) was one of the most enduring mysteries of sugarcane pathology. The mystery continued when the causal agent was revealed as a member of a large group of free-living eukaryotic microbes that had not previously been associated with any plant diseases. CSD has impacted worldwide sugarcane production since at least the 1920s when it was first noticed simultaneously in Java, Australia and Hawaii. Readily identified by irregular, yellow to creamy-white chlorotic streaks on the leaves, the identity of the pathogen remained unknown for 90 years. CSD negatively affects germination speed, ratooning, stalk numbers and stalk weight, and later causes stunting of crop growth, leading to major losses in sugar production. Prior to the discovery of the pathogen, CSD was found to be waterborne and spread by infected vegetative propagation material. As such it is particularly damaging in poorly drained soils and areas subject to high rainfall. In severe cases it can lead to crop death. The implementation of successful CSD management strategies has been limited by the lack of knowledge surrounding the nature of this disease. However, these strategies are likely to be augmented with the recent identification of the causal agent, a novel cercozoan described as Phytocercomonas venanatans. This review provides insight into the history, causal agent and potential future developments of CSD management strategies.

Diversity of plant‐parasitic nematodes (PPNs) associated with medicinal plants in Vietnam, Vietnamese PPN checklist and a pictorial key for their identification

Posted on 30 August 2023 by

This study reveals the diverse and damaging nature of plant-parasitic nematodes in Vietnamese medicinal plants, providing a Vietnamese nematofauna list of 217 species and offering an online key for global identification.

Abstract

Plant-parasitic nematodes (PPNs) are one of the most damaging pests to plants and are able to cause significant damage to all parts of plants, including stems, leaves, flowers, fruits and roots. Studies on the diversity, host range, distribution and identification methods of PPNs are therefore vital in order to create a basis for management. This current study represents the first dedicated investigation of PPNs from medicinal plants in Vietnam, focusing on the diversity of nematodes associated with 23 different plant species. In combination with a literature review of PPNs in Vietnam, this work has resulted in an updated list of 217 PPN species belonging to 40 genera, 15 families and three orders and also provides a pictorial online key for the identification of 52 most common and important PPN genera of the world. This key is based on the most crucial diagnostic features of PPN females, including female body shape, cuticle, labial shape, cephalic framework, stylet, stylet base, pharynx, median bulb, pharyngeal gland, vulva, tail shape and phasmid. Pictorial representations of these genera and their diagnostic characters are included in the browser-based key to benefit users from all levels in nematology, be they beginners or experts.

Advances in screening, synthesis, modification, and biomedical applications of peptides and peptide aptamers

Posted on 30 August 2023 by

This comprehensive review explores the latest advancements in the screening, synthesis, modification, and biomedical applications of peptides and peptide aptamers. It discusses screening techniques, diverse synthesis strategies, and various modification approaches employed to enhance their properties. The review also highlights the broad range of biomedical applications where peptides and peptide aptamers have shown promise, including drug delivery, therapeutics, diagnostics, and biomaterials.

Abstract

Peptides and peptide aptamers have emerged as promising molecules for a wide range of biomedical applications due to their unique properties and versatile functionalities. The screening strategies for identifying peptides and peptide aptamers with desired properties are discussed, including high-throughput screening, display screening technology, and in silico design approaches. The synthesis methods for the efficient production of peptides and peptide aptamers, such as solid-phase peptide synthesis and biosynthesis technology, are described, along with their advantages and limitations. Moreover, various modification techniques are explored to enhance the stability, specificity, and pharmacokinetic properties of peptides and peptide aptamers. This includes chemical modifications, enzymatic modifications, biomodifications, genetic engineering modifications, and physical modifications. Furthermore, the review highlights the diverse biomedical applications of peptides and peptide aptamers, including targeted drug delivery, diagnostics, and therapeutic. This review provides valuable insights into the advancements in screening, synthesis, modification, and biomedical applications of peptides and peptide aptamers. A comprehensive understanding of these aspects will aid researchers in the development of novel peptide-based therapeutics and diagnostic tools for various biomedical challenges.

Approaching 25 years of progress towards Fusarium head blight resistance in southern soft red winter wheat (Triticum aestivum L.)

Posted on 10 August 2023 by

Abstract

Tremendous progress has been made in variety development and host plant resistance to mitigate the impact of Fusarium head blight (FHB) since the disease manifested in the southeastern United States in the early 2000s. Much of this improvement was made possible through the establishment of and recurring support from the US Wheat & Barley Scab Initiative (USWBSI). Since its inception in 1997, the USWBSI has enabled land-grant institutions to make advances in reducing the annual threat of devastating FHB epidemics. A coordinated field phenotyping effort for annual germplasm screening has become a staple tool for selection in public and private soft red winter wheat (SRWW) breeding programmes. Dedicated efforts of many SRWW breeders to identify and utilize resistance genes from both native and exotic sources provided a strong foundation for improvement. In recent years, implementation of genomics-enabled breeding has further accelerated genetic gains in FHB resistance. This article reflects on the improvement of FHB resistance in southern SRWW and contextualizes the monumental progress made by collaborative, persistent, and good old-fashioned cultivar development.

The role of P450 enzymes in malaria and other vector‐borne infectious diseases

Posted on 9 August 2023 by nOleksii Skorokhod, nEkaterina Vostokova, nGianfranco Gilardin

We review published research data on P450 enzymes from all players in vector-borne infections, that is, pathogens, vectors, and hosts, regarding the potential role of CYPs in disease. We discuss strategies on how to exploit cytochromes P450 in vector-borne disease control.

Abstract

Vector-borne infectious diseases are still an important global health problem. Malaria is the most important among them, mainly pediatric, life-threatening disease. Malaria and other vector-borne disorders caused by parasites, bacteria, and viruses have a strong impact on public health and significant economic costs. Most vector-borne diseases could be prevented by vector control, with attention to the ecological and biodiversity conservation aspects. Chemical control with pesticides and insecticides is widely used as a measure of prevention although increasing resistance to insecticides is a serious issue in vector control. Metabolic resistance is the most common mechanism and poses a big challenge. Insect enzyme systems, including monooxygenase CYP P450 enzymes, are employed by vectors mainly to metabolize insecticides thus causing resistance. The discovery and application of natural specific inhibitors/blockers of vector P450 enzymes as synergists for commonly used pesticides will contribute to the “greening” of insecticides. Besides vector CYPs, host CYP enzymes could also be exploited to fight against vector-borne diseases: using mostly their detoxifying properties and involvement in the immune response. Here, we review published research data on P450 enzymes from all players in vector-borne infections, that is, pathogens, vectors, and hosts, regarding the potential role of CYPs in disease. We discuss strategies on how to exploit cytochromes P450 in vector-borne disease control.

Soybean red crown rot: Current knowledge and future challenges

Posted on 7 August 2023 by nChang‐Jie Jiang, nXianzhi Xien

Soybean red crown rot caused by the soilborne fungus Calonectria ilicicola is emerging as a significant constraint to soybean production worldwide, requiring prompt action.

Abstract

Soybean red crown rot (RCR) is caused by the soilborne fungal pathogen Calonectria ilicicola. It causes root rot, leaf senescence, early defoliation, plant wilting and even death, often resulting in a severe reduction in seed yield and quality. C. ilicicola is an extremely difficult pathogen to control owing to its wide host range and long survival in soil and plant debris. Currently, no practically effective fungicide for this pathogen is available. Breeding for resistance is considered the most effective and environmentally acceptable means of disease management, but no C. ilicicola-resistant soybean variety has yet been identified. Given this situation, it is necessary to promote our understanding of the mechanism of RCR incidence and the development of a comprehensive and sustainable RCR management strategy urgently.

Research and development of hybrid rice in China

Posted on 6 August 2023 by nJiming Li, nXiaohe Luo, nKunlu Zhoun

Abstract

In the past 60 years, China's hybrid rice has developed from a three-line system to a two-line system: This has enriched the knowledge of heterosis and crop breeding. At the same time, the large-scale commercialization of hybrid rice has made great contributions to China's rice production.

Roles of circular RNAs in osteogenic/osteoclastogenic differentiation

Posted on 3 August 2023 by nTao Wang, nChao Zhang, nLin Xu, nXingnuan Lin

The present review provides a systematic overview of recent literature on the processes through which circRNAs regulate the dynamic balance between osteoblasts and osteoclasts that ultimately preserve bone homeostasis. It will also give insight that can shape current understanding of the pathogenesis of OP and other bone metabolic diseases to better guide diagnostic and treatment strategies for affected patients.

Abstract

The process of bone remodeling occurs and is regulated through interactions between osteoclasts, which resorb bone, and osteoblasts, which generate bone tissue. When the homeostatic balance between these two cell types is dysregulated, this can contribute to abnormal bone remodeling resulting in a loss of bone mass as is observed in osteoporosis (OP) and other forms of degenerative bone metabolic diseases. At present, details of molecular mechanism underlying the development of bone metabolic diseases such as OP remain to be elucidated. Circular RNAs (circRNAs) are small non-coding RNA molecules with a closed-loop structure that can regulate the differentiation of osteoclasts and osteoblasts. The present review provides a systematic overview of recent literature on the processes through which circRNAs regulate the dynamic balance between osteoblasts and osteoclasts that ultimately preserve bone homeostasis. It will also give insight that can shape current understanding of the pathogenesis of OP and other bone metabolic diseases to better guide diagnostic and treatment strategies for affected patients.

Potato cyst nematodes: A persistent and fearsome foe

Posted on 1 August 2023 by nValeria Orlando, nEric Boan

This review provides case studies on Globodera pallida, Globodera rostochiensis and Globodera ellingtonae, for a historical view of how scientists and potato experts have responded to PCN pandemics and the effectiveness of management strategies.

Abstract

Nematodes, commonly called roundworms, represent one of the largest phyla of animals. Plant-parasitic nematodes cause significant economic losses in major crops worldwide, and cyst nematodes (Heterodera spp. and Globodera spp.) are among the most damaging species. This review focuses on three main species, Globodera pallida, Globodera rostochiensis and Globodera ellingtonae, collectively known as potato cyst nematodes (PCNs). G. rostochiensis and G. pallida are the most commonly occurring species in potato-growing areas and are considered to have originated from the Andes region in South America and introduced then to Europe in the 1850s and now occur globally in more than 75 countries. PCNs feed entirely inside the root and produce distinctive cysts containing eggs. PCNs reduce root development, stunt the growth of potato plants and ultimately lead to the production of fewer and smaller tubers. PCNs are feared because of their ability to survive for up to 40 years in the soil in the absence of potatoes, and once established they are incredibly difficult to eradicate. Five case studies in this review provide an historical overview of how scientists and potato experts have responded to PCN pandemics and the effectiveness of management strategies.

Progress and prospect of developing salt and alkali tolerant rice using hybrid rice technology in China

Posted on 24 May 2023 by

Abstract

Soil salinization and alkalization are important abiotic stresses that affect crop growth and yield. Development of salt and alkali tolerant varieties is still dominated by the following conventional breeding method: The salt and alkali tolerant traits from screened germplasm are introduced into elite varieties by means of hybridization and backcrossing. In recent years, the breeding of salt and alkali tolerant rice has also made great progress. For example, the yield of Chao-You 1000, a two-line rice hybrid, has reached 12.04 t/ha growing in fields with salinity between 0.2% and 0.6%. This review is an update on the progress of salt and alkali tolerant rice germplasm screening and new salt and alkali tolerant varieties in development. By reviewing the performance of current rice hybrids in China's National Regional Variety Trials of Saline-Alkali Tolerant Rice, we proposed the technical approach of developing saline–alkali tolerant rice hybrids using the third-generation hybrid rice technology and furthermore the trend of developing salt and alkali tolerant rice hybrids.