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1. De Novo Transcriptome Assembly of Rice Bean (Vigna umbellata) and Characterization of WRKY Transcription Factors Response to Aluminum Stress

Author

Gunasekaran Ariharasutharsan, Manoharan Akilan, Manickam Dhasarathan, Manivel Amaravel, Sankaran Divya, Mariyappan Deivamani, Manickam Sudha, Muthaiyan Pandiyan, Adhimoolam Karthikeyan, and Natesan Senthil

Subjects
legumes, secondary metabolites, transcriptomics, aluminum stress, vigna species, Botany, QK1-989
Abstract

Rice bean is an underutilized legume crop cultivated in Asia, and it is a good source of protein, minerals, and essential fatty acids for human consumption. Moreover, the leaves left over after harvesting rice bean seeds contain various biological constituents beneficial to humans and animals. In our study, we performed a de-novo transcriptome assembly of rice bean, characterized the WRKY transcription factors, and studied their response to aluminum stress. A total of 46.6 million clean reads, with a GC value of 43%, were generated via transcriptome sequencing. De novo assembly of the clean reads resulted in 90,933 transcripts and 74,926 unigenes, with minimum and maximum lengths of 301 bp and 24,052 bp, and N50 values of 1801 bp and 1710 bp, respectively. A total of 27,095 and 28,378 unigenes were annotated and subjected to GO and KEGG analyses. Among the unigenes, 15,593, 20,770, and 15,385 unigenes were identified in the domains of biological process, molecular function, and cellular component, respectively. A total of 16,132 unigenes were assigned to 188 pathways, including metabolic pathways (5500) and secondary metabolite biosynthesis (2858). Transcription factor analysis revealed 4860 unigenes from 98 different transcription factor families. For WRKY, a total of 95 unigenes were identified. Further analysis revealed the diverse response of WRKY transcription factors to aluminum stress. Collectively, the results of this study boost genomic resources and provide a baseline for further research on the role of WRKY transcription factors in aluminum tolerance in rice bean.

Published
2024
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2. The soybean GmPUB21-interacting protein GmDi19-5 responds to drought and salinity stresses via an ABA-dependent pathway

Author

Yunhua Yang, Rui Ren, Adhimoolam Karthikeyan, Jinlong Yin, Tongtong Jin, Fei Fang, Han Cai, Mengzhuo Liu, Dagang Wang, Haijian Zhi, and Kai Li

Subjects
Soybean, Drought and salinity stresses, GmDi19-5, GmPUB21, ABA-dependent pathway, Agriculture, Agriculture (General), S1-972
Abstract

Drought-induced protein 19 (Di19) is a Cys2/His2 zinc-finger protein that functions in plant growth and development and in tolerance to abiotic stresses. GmPUB21, an E3 ubiquitin ligase, negatively regulates drought and salinity response in soybean. We identified potential interaction target proteins of GmPUB21 by yeast two-hybrid cDNA library screening, GmDi19-5 as a candidate. Bimolecular fluorescence complementation and glutathionine-S-transferase pull-down assays confirmed the interaction between GmDi19-5 and GmPUB21. GmDi19-5 was induced by NaCl, drought, and abscisic acid (ABA) treatments. GmDi19-5 was expressed in the cytoplasm and nucleus. GmDi19-5 overexpression conferred hypersensitivity to drought and high salinity, whereas GmDi19-5 silencing increased drought and salinity tolerance. Transcripts of ABA- and stress response-associated genes including GmRAB18 and GmDREB2A were down-regulated in GmDi19-5-overexpressing plants under drought and salinity stresses. ABA decreased the protein level of GmDi19-5 in vivo, whereas GmPUB21 increased the decrease of GmDi19-5 after exogenous ABA application. The accumulation of GmPUB21 was also inhibited by GmDi19-5. We conclude that GmPUB21 and GmDi19-5 collaborate to regulate drought and salinity tolerance via an ABA-dependent pathway.

Published
2023
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3. Discovery and characterization of differentially expressed soybean miRNAs and their targets during soybean mosaic virus infection unveils novel insight into Soybean-SMV interaction

Author

Bowen Li, Adhimoolam Karthikeyan, Liqun Wang, Jinlong Yin, Tongtong Jin, Hui Liu, Kai Li, Junyi Gai, and Haijian Zhi

Subjects
Soybean, Soybean mosaic virus, High-throughput sequencing, MicroRNAs, Target genes, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Soybean mosaic virus (SMV) is one of the most devastating pathogens of soybean. MicroRNAs (miRNAs) are a class of non-coding RNAs (21–24 nucleotides) which are endogenously produced by the plant host as part of a general gene expression regulatory mechanisms, but also play roles in regulating plant defense against pathogens. However, miRNA-mediated plant response to SMV in soybean is not as well documented. Result In this study, we analyzed 18 miRNA libraries, including three biological replicates from two soybean lines (Resistant and susceptible lines to SMV strain SC3 selected from the near-isogenic lines of Qihuang No. 1 × Nannong1138-2) after virus infection at three different time intervals (0 dpi, 7 dpi and 14 dpi). A total of 1,092 miRNAs, including 608 known miRNAs and 484 novel miRNAs were detected. Differential expression analyses identified the miRNAs profile changes during soybean-SMV interaction. Then, miRNAs potential target genes were predicted via data mining, and functional annotation was done by Gene Ontology (GO) analysis. The expression patterns of several miRNAs were validated by quantitative real-time PCR. We also validated the miRNA-target gene interaction by agrobacterium-mediated transient expression in Nicotiana benthamiana. Conclusion We have identified a large number of miRNAs and their target genes and also functional annotations. We found that multiple miRNAs were differentially expressed in the two lines and targeted a series of NBS-LRR resistance genes. It is worth mentioning that many of these genes exist in the previous fine-mapping interval of the resistance gene locus. Our study provides additional information on soybean miRNAs and an insight into the role of miRNAs during SMV-infection in soybean.

Published
2022
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4. Evaluation of dietary curcumin nanospheres as phytobiotics on growth performance, serum biochemistry, nutritional composition, meat quality, gastrointestinal health, and fecal condition of finishing pigs

Author

Mohammad Moniruzzaman, Dahye Kim, Hyunsoo Kim, Nayoung Kim, Sungyeon Chin, Adhimoolam Karthikeyan, Kyuhyuk Han, and Taesun Min

Subjects
curcumin nanospheres, growth, serum biochemistry, immunohistochemistry, malodors, microbes, Veterinary medicine, SF600-1100
Abstract

Curcumin is a bioactive functional feeding stimulant that is widely used as an additive in cuisine and animal feeds. Owing to its hydrophobic nature and low bioavailability, the nanoformulation of curcumin has recently received special attention from researchers. In this study, we investigated the effects of curcumin nanospheres (CN) on the growth performance, serum biochemistry, meat quality, intestinal immunohistochemistry, fecal malodors and microbes in finishing pigs. A total of 90 crossbred pigs (Duroc × [Yorkshire × Landrace]) with an average initial body weight of 73.77 ± 0.08 kg were randomized into 3 dietary groups in triplicate pens (10 pigs in each pen): control (CON) without supplementation of CN and the pigs in the remaining two groups were supplemented with CN at 1.0 (CN1) and 2.0 (CN2) mL/kg diet for a 40-day long experiment. The results showed that pigs fed the higher CN supplemented diet (CN2) had significantly higher final weight (FW) and weight gain (WG) than those fed the CON diet, and no significant differences were observed in the feed conversion ratio (FCR) and average daily feed intake (ADFI) after 28 days. At the end of the experiment, pigs fed the CN supplemented diet showed no significant difference in WG, ADFI or FCR compared to those on the CON diet. Overall, at the termination of the 40-day feeding trial, dietary CN had a significant effect on FW and WG, except for ADFI and FCR, in finishing pigs. After 40 days of the feeding trial, serum biochemical parameters such as glutamic-pyruvic transaminase, glutamic-oxaloacetic transaminase, triglycerides, and total cholesterol levels were significantly decreased in pigs fed the CN supplemented diet. However, high density lipoprotein levels were significantly increased in pigs fed the CN diets. Protein and lipid contents, as well as yellowness and lightness of the neck and longissimus dorsi muscles were not significantly affected by CN supplementation; however, there was a tendency to increase the redness of the longissimus dorsi muscle in pigs fed the CN2 supplemented diet compared to the CON diet. Meat grading and carcass weight significantly increased in pigs fed a higher CN supplemented diet. Fecal Escherichia coli and ammonia gas were significantly depleted in pigs fed CN diets. Histomorphological parameters, such as villus height, crypt depth and goblet cells in the jejunum of the intestine were significantly increased in pigs fed CN diet. Immunohistochemical staining showed that pro-inflammatory cytokine like tumor necrosis factor-α expression was reduced in pigs fed CN supplemented diets compared to the CON diet; however, antibodies such as immunoglobulin A and tight junction proteins such as claudin 3 were highly expressed in the intestine of pigs fed the CN diets. Overall, the results demonstrate the potential of dietary curcumin nanospheres as a nanobiotechnology tool as well as an effective feed additive for improving the performance and health status of finishing pigs.

Published
2023
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5. The impact of curcumin on livestock and poultry animal's performance and management of insect pests

Author

Anjana Sureshbabu, Elena Smirnova, Adhimoolam Karthikeyan, Mohammad Moniruzzaman, Senthil Kalaiselvi, Kiwoong Nam, Gaelle Le Goff, and Taesun Min

Subjects
curcumin, feed additive, insects, plant-based natural products, livestock and poultry animals, Veterinary medicine, SF600-1100
Abstract

Plant-based natural products are alternative to antibiotics that can be employed as growth promoters in livestock and poultry production and attractive alternatives to synthetic chemical insecticides for insect pest management. Curcumin is a natural polyphenol compound from the rhizomes of turmeric (Curcuma spp.) and has been suggested to have a number of therapeutic benefits in the treatment of human diseases. It is also credited for its nutritional and pesticide properties improving livestock and poultry production performances and controlling insect pests. Recent studies reported that curcumin is an excellent feed additive contributing to poultry and livestock animal growth and disease resistance. Also, they detailed the curcumin's growth-inhibiting and insecticidal activity for reducing agricultural insect pests and insect vector-borne human diseases. This review aims to highlight the role of curcumin in increasing the growth and development of poultry and livestock animals and in controlling insect pests. We also discuss the challenges and knowledge gaps concerning curcumin use and commercialization as a feed additive and insect repellent.

Published
2023
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6. Assessment of testicular steroidogenic enzymes expression in experimental animal model following withdrawal of nandrolone decanoate

Author

TaeSun Min, Adhimoolam Karthikeyan, and Ki-Ho Lee

Subjects
testis, steroidogenic enzymes, leydig cell, gene expression, nandrolone decanoate, recovery period, Animal culture, SF1-1100
Abstract

Anabolic steroids are frequently used to increase the growth rate of meat-producing animals. Exposure to an anabolic-androgenic steroid, nandrolone decanoate (ND), is associated with expressional reduction of testicular steroidogenic enzymes. However, the effect of withdrawal of ND exposure on the expression of these testicular molecules has not been thoroughly explored. The current research investigated expression changes of testicular steroidogenic enzymes in rats at several recovery periods (2, 6, and 12 weeks) after the stop of ND treatment with different doses (2 and 10 mg/kg body weight) for 12 weeks. Body and testis weights were recorded, and transcript levels of molecules were determined by quantitative real-time polymerase chain reaction (PCR). The immunohistochemistry was used to examine the changes of immuno-intensities of molecules. At 6 and 12 weeks of the recovery period, the 10 mg/kg ND-treated rats were lighter than other experimental groups. The interstitial compartment vanished by ND treatment filled up as the recovery period became longer. The expression of steroidogenic acute regulatory protein was returned to the control level at 12 weeks of the recovery period. Expression levels of cytochrome P450 side-chain cleavage and 17a-hydroxylase were increased in 2 mg/kg ND-treated group at 6 weeks of the recovery period, and transcript levels of these molecules in 2 and 10 mg/kg ND-treated groups at 12 weeks of the recovery period were significantly lower than the control. Expression levels of 3β-hydroxysteroid dehydrogenase (HSD) type I and 17β-HSD type 3 in 2 mg/kg ND-treated group were comparable with those of control at 12 weeks of the recovery period, but not in 10 mg/kg ND-treated group. Expression of cytochrome P450 aromatase (Cyp19) was reverted to the control level at 2 weeks of the recovery period. Except for Cyp19, there was a visible increase of immuno-staining intensity of other testicular steroidogenic enzymes in the Leydig cells as the recovery period progressed. This research has demonstrated that the cease of ND administration could restore the expression of testicular steroidogenic enzymes close to the normal level. Nevertheless, a relatively long recovery period, compared to the ND-exposure period would be required to retrieve normal expression levels of testicular steroidogenic enzymes.

Published
2021
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7. Curcumin as a Potential Antioxidant in Stress Regulation of Terrestrial, Avian, and Aquatic Animals: A Review

Author

Do Thi Cat Tuong, Mohammad Moniruzzaman, Elena Smirnova, Sungyeon Chin, Anjana Sureshbabu, Adhimoolam Karthikeyan, and Taesun Min

Subjects
curcumin, antioxidants, terrestrial, avian, aquatic animals, stress management, Therapeutics. Pharmacology, RM1-950
Abstract

Stress has brought about a variety of harmful impacts on different animals, leading to difficulties in the management of animal husbandry and aquaculture. Curcumin has been recognized as a potential component to ameliorate the adverse influence of animal stress induced by toxicity, inflammation, diseases, thermal effect, and so on. In detail, this compound is known to offer various outstanding functions, including antibacterial properties, antioxidant effects, immune response recovery, and behavioral restoration of animals under stress conditions. However, curcumin still has some limitations, owing to its low bioavailability. This review summarizes the latest updates on the regulatory effects of curcumin in terms of stress management in terrestrial, avian, and aquatic animals.

Published
2023
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8. GBS-Based SNP Map Pinpoints the QTL Associated With Sorghum Downy Mildew Resistance in Maize (Zea mays L.)

Author

Kashmiri Prakash Jadhav, Gajanan R. Saykhedkar, Pandiampalayam Marappan Tamilarasi, Subramani Devasree, Rajagopalan Veera Ranjani, Chandran Sarankumar, Pukalenthy Bharathi, Adhimoolam Karthikeyan, Soosai Arulselvi, Esvaran Vijayagowri, Kalipatty Nalliappan Ganesan, Vaikuntavasan Paranidharan, Sudha K. Nair, Raman Babu, Jegadeesan Ramalingam, Muthurajan Raveendran, and Natesan Senthil

Subjects
genotyping by sequencing, maize, single nucleotide polymorphism, sorghum downy mildew, QTL, Genetics, QH426-470
Abstract

Sorghum downy mildew (SDM), caused by the biotrophic fungi Peronosclerospora sorghi, threatens maize production worldwide, including India. To identify quantitative trait loci (QTL) associated with resistance to SDM, we used a recombinant inbred line (RIL) population derived from a cross between resistant inbred line UMI936 (w) and susceptible inbred line UMI79. The RIL population was phenotyped for SDM resistance in three environments [E1-field (Coimbatore), E2-greenhouse (Coimbatore), and E3-field (Mandya)] and also utilized to construct the genetic linkage map by genotyping by sequencing (GBS) approach. The map comprises 1516 SNP markers in 10 linkage groups (LGs) with a total length of 6924.7 cM and an average marker distance of 4.57 cM. The QTL analysis with the phenotype and marker data detected nine QTL on chromosome 1, 2, 3, 5, 6, and 7 across three environments. Of these, QTL namely qDMR1.2, qDMR3.1, qDMR5.1, and qDMR6.1 were notable due to their high phenotypic variance. qDMR3.1 from chromosome 3 was detected in more than one environment (E1 and E2), explaining the 10.3% and 13.1% phenotypic variance. Three QTL, qDMR1.2, qDMR5.1, and qDMR6.1 from chromosomes 1, 5, and 6 were identified in either E1 or E3, explaining 15.2%–18% phenotypic variance. Moreover, genome mining on three QTL (qDMR3.1, qDMR5.1, and qDMR6.1) reveals the putative candidate genes related to SDM resistance. The information generated in this study will be helpful for map-based cloning and marker-assisted selection in maize breeding programs.

Published
2022
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9. Untangling the Physio-Chemical and Transcriptional Changes of Black Gram Cultivars After Infection With Urdbean Leaf Crinkle Virus

Author

Adhimoolam Karthikeyan, Manoharan Akilan, Santhi Mathavan Samyuktha, Gunasekaran Ariharasutharsan, V. G. Shobhana, Kannan Veni, Murugesan Tamilzharasi, Krishnan Keerthivarman, Manickam Sudha, Muthaiyan Pandiyan, and Natesan Senthil

Subjects
biotic stress, black gram (vigna mungo L. hepper), pulses, urdbean leaf crinkle virus (UCLV), Legumes (Fabaceae), Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Black gram (Vigna mungo) is an important pulse crop of India. The leaf crinkle disease caused by the urdbean leaf crinkle virus (ULCV) is a severe threat to black gram production. Black gram plants infected by ULCV show a considerable decline in plant growth and yield. However, detailed information about the interactions between the host, black gram, and ULCV is unclear. This study investigated the responses of two cultivars VBN (Bg) 6 and CO 5 to ULCV infection by physiological, biochemical, and transcriptional analyses. Virus symptoms were mild in VBN (Bg) 6 but were serious in CO 5. Upon the viral infection, VBN (Bg) 6 exhibited a low reduction in chlorophyll content than CO 5. The levels of sugar, protein, phenol, hydrogen peroxide (H2O2), and malondialdehyde (MDA) contents were altered by a viral infection in both cultivars. Although, the activities of antioxidant enzymes [Ascorbate peroxidase (APX), superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT)] were increased by ULCV infection. Following the viral infection, the expression level of the salicylic acid (SA), jasmonic acid (JA), and ethylene (ET) defense pathway-related genes was recorded higher in the VBN (Bg) 6 than that recorded in CO 5, indicating a positive correlation between resistance and these indicative indices. This dynamic physio-biochemical and transcriptional profiles of two black gram cultivars on ULCV infection augment our understanding of the complex interaction response between this crop and its pathogen. Additionally, it offers an inventory of potential indicators for future black gram screening and breeding to enhance resistance.

Published
2022
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10. A Review of the Role of Curcumin in Metal Induced Toxicity

Author

Elena Smirnova, Mohammad Moniruzzaman, Sungyeon Chin, Anjana Sureshbabu, Adhimoolam Karthikeyan, Kyoungtag Do, and Taesun Min

Subjects
curcumin, trace elements, antioxidant defense, chelation therapy, reactive oxygen species, hepatoprotective effect, Therapeutics. Pharmacology, RM1-950
Abstract

Metal toxicity poses a potential global threat to the environment and living beings. Their numerous agricultural, medical, industrial, domestic, and technological applications result in widespread distribution in the environment which raises concern on the potential effects of metals in terms of health hazards and environmental pollution. Chelation therapy has been the preferred medical treatment for metal poisoning. The chelating agent bounds metal ions to form complex cyclic structures known as ‘chelates’ to intensify their excretion from the body. The main disadvantage of synthetic chelators is that the chelation process removes vital nutrients along with toxic metals. Natural compounds are widely available, economical, and have minimal adverse effects compared to classical chelators. Herbal preparations can bind to the metal, reduce its absorption in the intestines, and facilitate excretion from the body. Curcumin, a bioactive substance in turmeric, is widely used as a dietary supplement. Most studies have shown that curcumin protects against metal-induced lipid peroxidation and mitigates adverse effects on the antioxidant system. This review article provides an analysis to show that curcumin imparts promising metal toxicity-ameliorative effects that are related to its intrinsic antioxidant activity.

Published
2023
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11. The Credible Role of Curcumin in Oxidative Stress-Mediated Mitochondrial Dysfunction in Mammals

Author

Muthuswamy Sathyabhama, Loganathan Chandramani Priya Dharshini, Adhimoolam Karthikeyan, Senthil Kalaiselvi, and Taesun Min

Subjects
curcumin, mammals, mitochondrial dysfunction, oxidative stress, antioxidant, anti-inflammatory, Microbiology, QR1-502
Abstract

Oxidative stress and mitochondrial dysfunction are associated with the pathogenesis of several human diseases. The excessive generation of reactive oxygen species (ROS) and/or lack of adequate antioxidant defenses causes DNA mutations in mitochondria, damages the mitochondrial respiratory chain, and alters membrane permeability and mitochondrial defense mechanisms. All these alterations are linked to the development of numerous diseases. Curcumin, an active ingredient of turmeric plant rhizomes, exhibits numerous biological activities (i.e., antioxidant, anti-inflammatory, anticancer, and antimicrobial). In recent years, many researchers have shown evidence that curcumin has the ability to reduce the oxidative stress- and mitochondrial dysfunction-associated diseases. In this review, we discuss curcumin’s antioxidant mechanism and significance in oxidative stress reduction and suppression of mitochondrial dysfunction in mammals. We also discuss the research gaps and give our opinion on how curcumin research in mammals should proceed moving forward.

Published
2022
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12. The Hunt for Mungbean (Vigna radiata (L.) Wilczek) Genotypes and Breeding Lines Resistance to South Indian Bruchid Strain

Author

Santhi Madhavan Samyuktha, Devarajan Malarvizhi, Irulappan Mariyammal, Adhimoolam Karthikeyan, Devina Seram, Manickam Dhasarathan, Sundarrajan Juliet Hepziba, Venugopal Sheela, Arumugam Thanga Hemavathy, Duraisamy Kavithamani, Shanmugam Kavitha, and Natesan Senthil

Subjects
bruchid resistance, Callosobruchus spp., introgression breeding, mungbean, Agriculture (General), S1-972
Abstract

Mungbean (Vigna radiata) is an important short-season legume widely cultivated in Asia, particularly India. It is highly susceptible to bruchids and developing bruchid resistance is an important goal in mungbean breeding programs. In the present study, 52 mungbean genotypes were evaluated for bruchid resistance based on the “no-choice test” and identified two highly resistant genotypes (V2802BG and V2709) with no adult emergence and seed damage. Further, these two resistant genotypes were crossed with six high-yielding bruchid susceptible cultivars (CO 5, CO 6, CO 7, CO 8, VBN 2, and VBN 3), and 12 independent F1 populations were generated. Of these, one population derived from CO 6 × V2802BG was selected (based on the good combining ability of the parents) and forwarded to later generations to trace the bruchid-resistant lines. A total of 159 F2:3 families were screened for bruchid resistance, and the results showed that seven families were highly resistant, whereas the remainder were resistant to highly susceptible. Further, those seven families were evaluated in F4 and F5 generations. As a result, five highly resistant lines (BSR-GG-1-49-3-1, BSR-GG-1-56-2-2, BSR-GG-1-160-5-3, BSR-GG-1-170-2-4, and BSR-GG-1-198-1-4) with good agronomic performances were identified. The newly developed lines could be tested in multi-location trials and then be utilized as a potential source of genetic material for improving the bruchid resistance in mungbean breeding programs.

Published
2022
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13. Multi-Omics and Integrative Approach towards Understanding Salinity Tolerance in Rice: A Review

Author

Pandiyan Muthuramalingam, Rajendran Jeyasri, Kasinathan Rakkammal, Lakkakula Satish, Sasanala Shamili, Adhimoolam Karthikeyan, Alaguvel Valliammai, Arumugam Priya, Anthonymuthu Selvaraj, Pandiyan Gowri, Qiang-Sheng Wu, Shunmugiah Karutha Pandian, Hyunsuk Shin, Jen-Tsung Chen, Venkidasamy Baskar, Muthu Thiruvengadam, Manoharan Akilan, and Manikandan Ramesh

Subjects
agricultural practices, bioinformatics, biotechnological tools, breeding, multi-omics, rice, Biology (General), QH301-705.5
Abstract

Rice (Oryza sativa L.) plants are simultaneously encountered by environmental stressors, most importantly salinity stress. Salinity is the major hurdle that can negatively impact growth and crop yield. Understanding the salt stress and its associated complex trait mechanisms for enhancing salt tolerance in rice plants would ensure future food security. The main aim of this review is to provide insights and impacts of molecular-physiological responses, biochemical alterations, and plant hormonal signal transduction pathways in rice under saline stress. Furthermore, the review highlights the emerging breakthrough in multi-omics and computational biology in identifying the saline stress-responsive candidate genes and transcription factors (TFs). In addition, the review also summarizes the biotechnological tools, genetic engineering, breeding, and agricultural practicing factors that can be implemented to realize the bottlenecks and opportunities to enhance salt tolerance and develop salinity tolerant rice varieties. Future studies pinpointed the augmentation of powerful tools to dissect the salinity stress-related novel players, reveal in-depth mechanisms and ways to incorporate the available literature, and recent advancements to throw more light on salinity responsive transduction pathways in plants. Particularly, this review unravels the whole picture of salinity stress tolerance in rice by expanding knowledge that focuses on molecular aspects.

Published
2022
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14. Essential Oil Profile Diversity in Cardamom Accessions From Southern India

Author

Kaliyaperumal Ashokkumar, Sampathrajan Vellaikumar, Muthusamy Murugan, M. K. Dhanya, Gunasekaran Ariharasutharsan, Shaji Aiswarya, Manoharan Akilan, Thomas D. Warkentin, and Adhimoolam Karthikeyan

Subjects
cardamom, essential oil, GC/MS analysis, 1,8-cineole, α-terpinyl acetate, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

The essential oil of cardamom capsules is a high-value ingredient in foods, beverages, perfumery, and traditional medicines. It is responsible for the characteristic aroma of cardamom. The present study aimed to evaluate essential oil yield and chemical constituents of 22 diverse accessions of cardamom. A total of 20 g of the cured capsules were hydrodistilled in a Clevenger apparatus for 3 h in three replications. The amount of essential oil yield ranged from 4.5 to 9.5%, indicating a substantial variation in this feature among the accessions. The GC/MS analysis results discovered 24 constituents that constituted 98.1–100% of total essential oil. The main fractions were found to be oxygenated monoterpenes (40.7–66.7%), monoterpene hydrocarbons (23.1–58.6%), and sesquiterpenes (0.1–2.0%). Among the monoterpenoids, the predominant constituents were α-terpinyl acetate (29.9–61.3%) followed by 1,8-cineole (15.2–49.4%), α-terpineol (0.83–13.2%), β-linalool (0.44–11.0%), and sabinene (1.9–4.9%). Two sesquiterpene constituents, cardinen and nerolidol and p-cresol (a phenol derivative) were also identified. The compositional data were subjected to euclidean-distance-based similarity analysis, which showed two major clusters. The major constituents of cardamom essential oil (CEO) are 1,8-cineole, α-terpinyl acetate, sabinene, and β-linalool that can be used in food, aroma, and pharmaceutical applications.

Published
2021
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15. Distinctive Physio-Biochemical Properties and Transcriptional Changes Unfold the Mungbean Cultivars Differing by Their Response to Drought Stress at Flowering Stage

Author

Gunasekaran Ariharasutharsan, Adhimoolam Karthikeyan, Vellaichamy Gandhimeyyan Renganathan, Vishvanathan Marthandan, Manickam Dhasarathan, Ayyavoo Ambigapathi, Manoharan Akilan, Subramani Palaniyappan, Irulappan Mariyammal, Muthaiyan Pandiyan, and Natesan Senthil

Subjects
abiotic stresses, biochemical response, drought, legumes, mungbean, Plant culture, SB1-1110
Abstract

Mungbean is a nutritionally and economically important pulse crop cultivated around Asia, mainly in India. The crop is sensitive to drought at various developmental stages of its growing period. However, there is limited or almost no research on a comparative evaluation of mung-bean plants at the flowering stage under drought conditions. Hence, the aim of this research was to impose the drought stress on two mungbean cultivars VRM (Gg) 1 and CO6 at the flowering stage and assess the physio-biochemical and transcriptional changes. After imposing the drought stress, we found that VRM (Gg) 1 exhibited a low reduction in physiological traits (Chlorophyll, relative water content, and plant dry mass) and high proline content than CO6. Additionally, VRM (Gg) 1 has a low level of H2O2 and MDA contents and higher antioxidant enzymes (SOD, POD, and CAT) activity than CO6 during drought stress. The transcriptional analysis of photosynthesis (PS II-PsbP, PS II-LHC, PS I-PsaG/PsaK, and PEPC 3), antioxidant (SOD 2, POD, CAT 2), and drought-responsive genes (HSP-90, DREB2C, NAC 3 and AREB 2) show that VRM (Gg) 1 had increased transcripts more than CO6 under drought stress. Taken together, VRM (Gg) 1 had a better photosynthetic performance which resulted in fewer reductions in chlorophyll, relative water content, and plant dry mass during drought stress. In addition, higher antioxidative enzyme activities led to lower H2O2 and MDA levels, limiting oxidative damage in VRM (Gg) 1. This was positively correlated with increased transcripts of photosynthesis and antioxidant-related genes in VRM (Gg) 1. Further, the increased transcripts of drought-responsive genes indicate that VRM (Gg) 1 has a better genetic basis against drought stress than CO6. These findings help to understand the mungbean response to drought stress and will aid in the development of genotypes with greater drought tolerance by utilizing natural genetic variants.

Published
2022
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16. Delineation of Genotype × Environment Interaction for Identification of Stable Genotypes to Grain Yield in Mungbean

Author

Santhi Madhavan Samyuktha, Devarajan Malarvizhi, Adhimoolam Karthikeyan, Manickam Dhasarathan, Arumugam Thanga Hemavathy, Chocklingam Vanniarajan, Venugopal Sheela, Sundarrajan Juliet Hepziba, Muthaiyan Pandiyan, and Natesan Senthil

Subjects
GGE, AMMI, GSI, G × E interaction, mungbean, Agriculture, Plant culture, SB1-1110
Abstract

In the present study, fifty-two mungbean (Vigna radiata) genotypes were evaluated for seven morphological traits at three different environments in South Indian state Tamil Nadu, namely Virinjipuram (E1), Eachangkottai (E2), and Bhavanisagar (E3) during Kharif 2017, 2018, and 2019, respectively. The data collected were subjected to variability and correlation analyses, followed by stability analysis using additive main effects and multiplicative interaction (AMMI) model, genotype and genotype × environment interaction effects (GGE) biplot. Variablility was observed among the genotypes for the following traits viz., plant height, days to fifty per cent flowering, number of pods per plant, pod length, number of seeds per pod, hundred seed weight and grain yield. Correlation analysis showed that the trait number of pods per plant was significantly associated with grain yield. The G × E was smaller than the genetic variation of grain yield as it portrayed the maximum contribution of genotypic effects (61.07%). GGE biplot showed E3 as a highly discriminating and representative environment. It also identified environment-specific genotypes viz., EC 396111 for E1, EC 396125 for E2 and EC 396101 for E3 environments. The genotypes with minimum genotype stability index (GSI) viz., V2802BG (7), HG 22 (13), and EC 396098 (13) were observed with wide adaptation and high yields across all the three environments. In summary, we identified stable genotypes adapted across environments for grain yield. These genotypes can be used as parent/pre-breeding materials in future mungbean breeding programs.

Published
2020
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17. Comparative Profiling of Volatile Compounds in Popular South Indian Traditional and Modern Rice Varieties by Gas Chromatography–Mass Spectrometry Analysis

Author

Kaliyaperumal Ashokkumar, Mahalingam Govindaraj, Sampathrajan Vellaikumar, V. G. Shobhana, Adhimoolam Karthikeyan, Manoharan Akilan, and Jeyaraman Sathishkumar

Subjects
Oryza sativa L., traditional aromatic rice, volatile organic compounds, GC-MS analysis, total phenol, Nutrition. Foods and food supply, TX341-641
Abstract

Rice (Oryza sativa L.) is one of the major cereal crops cultivated across the world, particularly in Southeast Asia with 95% of global production. The present study was aimed to evaluate the total phenolic content (TPC) and to profile all the volatile organic compounds (VOCs) of eight popular traditional and two modern rice varieties cultivated in South India. Thirty-one VOCs were estimated by gas chromatography–mass spectrometry (GC-MS). The identified volatile compounds in the 10 rice varieties belong to the chemical classes of fatty acids, terpenes, alkanes, alkenes, alcohols, phenols, esters, amides, and others. Interestingly, most of the identified predominant components were not identical, which indicate the latent variation among the rice varieties. Significant variations exist for fatty acids (46.9–76.2%), total terpenes (12.6–30.7%), total phenols (0.9–10.0%), total aliphatic alcohols (0.8–5.9%), total alkanes (0.5–5.1%), and total alkenes (1.0–4.9%) among the rice varieties. Of all the fatty acid compounds, palmitic acid, elaidic acid, linoleic acid, and oleic acid predominantly varied in the range of 11.1–33.7, 6.1–31.1, 6.0–28.0, and 0.7–15.1%, respectively. The modern varieties recorded the highest palmitic acid contents (28.7–33.7%) than the traditional varieties (11.1–20.6%). However, all the traditional varieties had higher linoleic acid (10.0–28.0%) than the modern varieties (6.0–8.5%). Traditional varieties had key phenolic compounds, stearic acid, butyric acid, and glycidyl oleate, which are absent in the modern varieties. The traditional varieties Seeraga samba and Kichilli samba had the highest azulene and oleic acid, respectively. All these indicate the higher variability for nutrients and aroma in traditional varieties. These varieties can be used as potential parents to improve the largely cultivated high-yielding varieties for the evolving nutritional market. The hierarchical cluster analysis showed three different clusters implying the distinctness of the traditional and modern varieties. This study provided a comprehensive volatile profile of traditional and modern rice as a staple food for energy as well as for aroma with nutrition.

Published
2020
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18. Barnyard Millet for Food and Nutritional Security: Current Status and Future Research Direction

Author

Vellaichamy Gandhimeyyan Renganathan, Chockalingam Vanniarajan, Adhimoolam Karthikeyan, and Jegadeesan Ramalingam

Subjects
barnyard millet, Echinochloa species, micronutrients, small millets, genetic and genomic resources, value addition, Genetics, QH426-470
Abstract

Barnyard millet (Echinochloa species) has become one of the most important minor millet crops in Asia, showing a firm upsurge in world production. The genus Echinochloa comprises of two major species, Echinochloa esculenta and Echinochloa frumentacea, which are predominantly cultivated for human consumption and livestock feed. They are less susceptible to biotic and abiotic stresses. Barnyard millet grain is a good source of protein, carbohydrate, fiber, and, most notably, contains more micronutrients (iron and zinc) than other major cereals. Despite its nutritional and agronomic benefits, barnyard millet has remained an underutilized crop. Over the past decades, very limited attempts have been made to study the features of this crop. Hence, more concerted research efforts are required to characterize germplasm resources, identify trait-specific donors, develop mapping population, and discover QTL/gene (s). The recent release of genome and transcriptome sequences of wild and cultivated Echinochloa species, respectively has facilitated in understanding the genetic architecture and decoding the rapport between genotype and phenotype of micronutrients and agronomic traits in this crop. In this review, we highlight the importance of barnyard millet in the current scenario and discuss the up-to-date status of genetic and genomics research and the research gaps to be worked upon by suggesting directions for future research to make barnyard millet a potential crop in contributing to food and nutritional security.

Published
2020
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19. Nanocurcumin: A Promising Candidate for Therapeutic Applications

Author

Adhimoolam Karthikeyan, Natesan Senthil, and Taesun Min

Subjects
curcumin, Curcuma longa, diferuloylmethane, nanoformulation, turmeric, Therapeutics. Pharmacology, RM1-950
Abstract

Curcuma longa is an important medicinal plant and a spice in Asia. Curcumin (diferuloylmethane) is a hydrophobic bioactive ingredient found in a rhizome of the C. longa. It has drawn immense attention in recent years for its variety of biological and pharmacological action. However, its low water solubility, poor bioavailability, and rapid metabolism represent major drawbacks for its successful therapeutic applications. Hence, researchers have attempted to enhance the biological and pharmacological activity of curcumin and overcome its drawbacks by efficient delivery systems, particularly nanoencapsulation. Research efforts so far and data from the available literature have shown a satisfactory potential of nanorange formulations of curcumin (Nanocurcumin), it increases all the biological and pharmacological benefits of curcumin, which was not significantly possible earlier. For the synthesis of nanocurcumin, an array of techniques has been developed and each technique has its own advantages and individual characteristics. The two most popular and effective techniques are ionic gelation and antisolvent precipitation. So far, many curcumin nanoformulations have been developed to enhance curcumin delivery, thereby overcoming the low therapeutic effects. However, most of the nanoformulation of curcumin remained at the concept level evidence, thus, several questions and challenges still exist to recommend the nanocurcumin as a promising candidate for therapeutic applications. In this review, we discuss the different curcumin nanoformulation and nanocurcumin implications for different therapeutic applications as well as the status of ongoing clinical trials and patents. We also discuss the research gap and future research directions needed to propose curcumin as a promising therapeutic candidate.

Published
2020
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20. Genomics-Integrated Breeding for Carotenoids and Folates in Staple Cereal Grains to Reduce Malnutrition

Author

Kaliyaperumal Ashokkumar, Mahalingam Govindaraj, Adhimoolam Karthikeyan, V. G. Shobhana, and Thomas D. Warkentin

Subjects
biofortification, nutri-genomics, cereal, folate, provitamin A, lutein, Genetics, QH426-470
Abstract

Globally, two billion people suffer from micronutrient deficiencies. Cereal grains provide more than 50% of the daily requirement of calories in human diets, but they often fail to provide adequate essential minerals and vitamins. Cereal crop production in developing countries achieved remarkable yield gains through the efforts of the Green Revolution (117% in rice, 30% in wheat, 530% in maize, and 188% in pearl millet). However, modern varieties are often deficient in essential micronutrients compared to traditional varieties and land races. Breeding for nutritional quality in staple cereals is a challenging task; however, biofortification initiatives combined with genomic tools increase the feasibility. Current biofortification breeding activities include improving rice (for zinc), wheat (for zinc), maize (for provitamin A), and pearl millet (for iron and zinc). Biofortification is a sustainable approach to enrich staple cereals with provitamin A, carotenoids, and folates. Significant genetic variation has been found for provitamin A (96–850 μg and 12–1780 μg in 100 g in wheat and maize, respectively), carotenoids (558–6730 μg in maize), and folates in rice (11–51 μg) and wheat (32.3–89.1 μg) in 100 g. This indicates the prospects for biofortification breeding. Several QTLs associated with carotenoids and folates have been identified in major cereals, and the most promising of these are presented here. Breeding for essential nutrition should be a core objective of next-generation crop breeding. This review synthesizes the available literature on folates, provitamin A, and carotenoids in rice, wheat, maize, and pearl millet, including genetic variation, trait discovery, QTL identification, gene introgressions, and the strategy of genomics-assisted biofortification for these traits. Recent evidence shows that genomics-assisted breeding for grain nutrition in rice, wheat, maize, and pearl millet crops have good potential to aid in the alleviation of micronutrient malnutrition in many developing countries.

Published
2020
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21. Dynamic Transcriptome Profiling of Mungbean Genotypes Unveil the Genes Respond to the Infection of Mungbean Yellow Mosaic Virus

Author

Manickam Sudha, Adhimoolam Karthikeyan, Balasubramaniam Madhumitha, Rajagopalan Veera Ranjani, Mayalagu Kanimoli Mathivathana, Manickam Dhasarathan, Jayakodi Murukarthick, Madiha Natchi Samu Shihabdeen, Karuppiah Eraivan Arutkani Aiyanathan, Muthaiyan Pandiyan, Natesan Senthil, and Muthurajan Raveendran

Subjects
mungbean, RNA seq, whitefly, yellow mosaic disease, Medicine
Abstract

Yellow mosaic disease (YMD), incited by mungbean yellow mosaic virus (MYMV), is a primary viral disease that reduces mungbean production in South Asia, especially in India. There is no detailed knowledge regarding the genes and molecular mechanisms conferring resistance of mungbean to MYMV. Therefore, disclosing the genetic and molecular bases related to MYMV resistance helps to develop the mungbean genotypes with MYMV resistance. In this study, transcriptomes of mungbean genotypes, VGGRU-1 (resistant) and VRM (Gg) 1 (susceptible) infected with MYMV were compared to those of uninfected controls. The number of differentially expressed genes (DEGs) in the resistant and susceptible genotypes was 896 and 506, respectively. Among them, 275 DEGs were common between the resistant and susceptible genotypes. Functional annotation of DEGs revealed that the DEGs belonged to the following categories defense and pathogenesis, receptor-like kinases; serine/threonine protein kinases, hormone signaling, transcription factors, and chaperons, and secondary metabolites. Further, we have confirmed the expression pattern of several DEGs by quantitative real-time PCR (qRT-PCR) analysis. Collectively, the information obtained in this study unveils the new insights into characterizing the MYMV resistance and paved the way for breeding MYMV resistant mungbean in the future.

Published
2022
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22. Evaluation of Dietary Curcumin Nanospheres in a Weaned Piglet Model

Author

Mohammad Moniruzzaman, Hunhwan Kim, Haewon Shin, Hyunsoo Kim, Nayoung Kim, Sungyeon Chin, Adhimoolam Karthikeyan, Hyojick Choi, Gonsup Kim, and Taesun Min

Subjects
nanomedicine, alternative of antibiotics, growth, hematology, proteomics, coliform bacteria, Therapeutics. Pharmacology, RM1-950
Abstract

Curcumin is a polyphenolic compound present in turmeric with extensive uses in cooking foods and biomedical applications. However, due to its hydrophobic nature, it is poorly soluble in water and its bioavailability is very low on oral administration in organisms. In this study, we investigated the dietary curcumin nanospheres in a weaned piglet model based on the growth, serum biochemistry, proteomics, fecal coliform bacteria, and malodors in the feces of piglets. A total of 135 weaned piglets (Duroc × [Yorkshire × Landrace]) with an average initial body weight of 7.0 ± 1.0 kg (28 ± 1 days of age) were randomly distributed in 9 pens (15 pigs in each pen) fed the dietary curcumin nanospheres (CN) at 0 (control), 0.5 (T1), and 1.0 mL (T2) CN/kg of diet in triplicates for 21 days. At the end of the feeding trial, the results showed piglets fed 1.0 mL CN/kg diet had significantly higher growth performance and feed utilization than control diet (without CN). However, there were no significant differences in growth and feed utilization between piglets fed T1 and T2 diets. Serum glucose, gamma-glutamyl transferase, total bilirubin, amylase, and lipase contents were unaffected in piglets fed the experimental diets. Interestingly, piglets fed T1 and T2 diets showed significantly lower total cholesterol levels than control diet. In serum proteomics, a total of 103 differentially expressed proteins (DEPs) were identified in the piglets fed control, T1, and T2 diets, of which 14 DEPs were upregulated and 4 DEPs were downregulated. Fecal coliform bacteria and ammonia gas were significantly reduced in piglets fed T1 and T2 diets. Overall, the results indicated dietary supplementation of CN could enhance the growth, feed utilization, and immunity—and reduce fecal pathogenic bacteria as well as ammonia gas emissions—in weaned piglets.

Published
2021
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23. Assessment of Anti-Inflammatory and Antioxidant Effects of Citrus unshiu Peel (CUP) Flavonoids on LPS-Stimulated RAW 264.7 Cells

Author

Adhimoolam Karthikeyan, Hun Hwan Kim, Vetrivel Preethi, Mohammad Moniruzzaman, Ki Ho Lee, Senthil Kalaiselvi, Gon Sup Kim, and Taesun Min

Subjects
Citrus unshiu, flavonoids, inflammation, lipopolysaccharide, oxidative stress, Botany, QK1-989
Abstract

Citrus unshiu is a popular medicinal herb in several Asian countries, in particular South Korea. C. unshiu peel (CUP) has several biologically active compounds, including flavonoids. Hence, this research aimed to label the flavonoids from CUP by HPLC-MS/MS analysis and examine their anti-inflammatory and antioxidant potential on LPS-stimulated RAW 264.7 macrophages. A total of four flavonoids (Rutin, naringin, hesperidin, and poncirin) were characterized, and their contents were quantified from CUP. It showed that the naringin is rich in CUP. Further, treatment with the flavonoids at concentrations of 2.5 and 5 μg/mL had no effect on the cell viability of RAW 264.7 macrophages. On the other hand, it decreased the production and expression of inflammatory mediators and pro-inflammatory cytokines such as NO, PGE2, TNF-α, IL-1β, iNOS, and COX2 in the LPS-stimulated RAW 264.7 macrophages. In addition, flavonoids treatment inhibited the NF-κB activation by downregulating the p-p65 and p-IκBα proteins expression. Furthermore, reactive oxygen species (ROS) production considerably decreased at the same concentrations while antioxidant enzyme activity increased in the LPS-stimulated RAW 264.7 macrophages. Collectively, our results show that CUP flavonoids have the potential to decrease inflammation and oxidative damage.

Published
2021
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24. Functional Analysis of A Soybean Ferredoxin-NADP Reductase (FNR) Gene in Response to Soybean Mosaic Virus

Author

Yingchao Shen, Adhimoolam Karthikeyan, Yunhua Yang, Na Ma, Jinlong Yin, Yuan Yuan, Liqun Wang, and Haijian Zhi

Subjects
bean pod mottle virus (BPMV), ferredoxin-NADP reductase (FNR), soybean mosaic virus (SMV), virus-induced gene silencing (VIGS), Agriculture
Abstract

The Ferredoxin-NADP reductase (FNR) gene plays a significant role in NADPH production, carbon assimilation, antioxidation, and cross-talking between chloroplasts and mitochondria in plants. This study aims to know the functional response of the soybean FNR gene (GmFNR) during a soybean mosaic virus (SMV) infection. For this purpose, we developed the bean pod mottle virus (BPMV)-based gene construct (BPMV-GmFNR) and used it to silence the GmFNR gene in resistant and susceptible lines. The results showed that GmFNR expression decreased to 50% in the susceptible line, compared to 40% in the resistant line. The silencing of GmFNR reduces the photosynthetic capacity and CAT activity of both lines compared to their respective controls. In addition, the H2O2 content increased significantly in the susceptible line, whereas the resistant line did not exhibit any change. Further, an SMV infection in the silencing plants of the susceptible line resulted in serious morphological changes and increased the SMV NIa-protease transcript accumulation compared to its control plants. However, the same impact was not observed in the resistant line. The yeast two-hybrid system, BIFC assay, and quantitative real-time polymerase chain reaction (qRT-PCR) analyses revealed that the GmFNR was interacting with EF1A and coincided with the increased SMV accumulation. The results obtained in this study improve the understanding of the soybean FNR gene response during SMV infection and provide a novel insight into the SMV resistance mechanism.

Published
2021
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25. Development of Novel Blackgram (Vigna mungo (L.) Hepper) Mutants and Deciphering Genotype × Environment Interaction for Yield-Related Traits of Mutants

Author

Manickam Dhasarathan, Seshadri Geetha, Adhimoolam Karthikeyan, Datchinamoorthy Sassikumar, and Narayanapillai Meenakshiganesan

Subjects
AMMI, G × E interaction, mutation breeding, pulses, blackgram, Agriculture
Abstract

Blackgram (Vigna mungo (L.) Hepper) yields are noticeably poor due to a shortage of improved varieties and an aggravated narrow genetic base. An attempt was made to isolate novel blackgram mutants by selecting for yield-related traits derived through gamma irradiation and testing the mutant genotype’s stability across the different environments. The irradiated blackgram populations M1-M5 were established in the background of cultivars ADT 3, Co 6, and TU 17-9. Desirable mutants were selected from M3 to M5 generations. It was observed in M2 and M3 that gamma rays showed higher mutagenic efficacy and generated good inherited variance for the yield-related traits. M4 established three divergent groups in each blackgram cultivar revealed by clustering analysis. The number of pods per plant, number of clusters per plant, and number of pods per cluster showed a strong direct association with single plant yield and could be considered as selection traits. G × E interactions were higher than the variation due to genotype for single plant yield. Limited environmental interaction was observed for the genotypes G24, G16, G36, G30, and G17, as revealed by AMMI, and the genotypes G18 and G29, as revealed by GGE. GGE biplot revealed the environment-specific genotypes G13 for E1 (Aduthurai), G7 for E2 (Kattuthottam), and G34 for E3 (Vamban) and also portrayed the highly discriminating (E3) and representative (E2) environments. Selected novel blackgram genotypes from this research are useful genetic stocks for genetic improvement and breeding.

Published
2021
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26. Curcumin and Its Modified Formulations on Inflammatory Bowel Disease (IBD): The Story So Far and Future Outlook

Author

Adhimoolam Karthikeyan, Kim Na Young, Mohammad Moniruzzaman, Anteneh Marelign Beyene, Kyoungtag Do, Senthil Kalaiselvi, and Taesun Min

Subjects
crohn’s disease, ulcerative colitis, anti-inflammatory, curcumin nanoformulations, turmeric, Pharmacy and materia medica, RS1-441
Abstract

Inflammatory bowel disease (IBD) is a chronic relapsing and remitting inflammatory disorder of the small intestine and colon. IBD includes ulcerative colitis (UC) and Crohn’s disease (CD), and it is a major factor for the development of colon cancer, referred to as colitis-associated cancer (CAC). The current treatment of IBD mainly includes the use of synthetic drugs and monoclonal antibodies. However, these drugs have side effects over long-term use, and the high relapse rate restricts their application. In the recent past, many studies had witnessed a surge in applying plant-derived products to manage various diseases, including IBD. Curcumin is a bioactive component derived from a rhizome of turmeric (Curcuma longa). Numerous in vitro and in vivo studies show that curcumin may interact with many cellular targets (NF-κB, JAKs/STATs, MAPKs, TNF-γ, IL-6, PPARγ, and TRPV1) and effectively reduce the progression of IBD with promising results. Thus, curcumin is a potential therapeutic agent for patients with IBD once it significantly decreases clinical relapse in patients with quiescent IBD. This review aims to summarize recent advances and provide a comprehensive picture of curcumin’s effectiveness in IBD and offer our view on future research on curcumin in IBD treatment.

Published
2021
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27. Curcumin Nanoformulations with Metal Oxide Nanomaterials for Biomedical Applications

Author

Anteneh Marelign Beyene, Mohammad Moniruzzaman, Adhimoolam Karthikeyan, and Taesun Min

Subjects
curcumin, metal oxide nanoparticles, nanoformulations, biomedical applications, Chemistry, QD1-999
Abstract

In the past few decades, curcumin, a natural polyphenolic phytochemical, has been studied for treating a wide variety of diseases. It has shown promising results as a potential curative agent for a variety of diseases. However, its inherent limitations, such as poor aqueous solubility, poor absorbability, fast metabolic rate, and quick elimination from the body, have limited its application beyond preclinical studies. A huge number of studies have been made to address the issues of curcumin and to maximally utilize its potentials. Many review articles have tried to assess and summarize different nanocarriers, especially organic nanocarriers, for nanoformulations with curcumin. Nevertheless, few exclusive reviews on the progress in nanoformulation of curcumin with inorganic nanomaterials have been made. In this review, we present an exclusive summary of the progress in nanoformulation of curcumin with metal oxide nanoparticles. The beneficial feature of the metal oxide nanoparticles used in the curcumin nanoformulation, the different approaches followed in formulating curcumin with the metal oxides, and the corresponding results, protective effect of curcumin from different metal oxide caused toxicities, and concluding remarks are presented in the review.

Published
2021
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28. Genomic Selection for Phenotype Prediction in Rice

Author

Muthazhagu Kuppuraj, Sakthi Anand, Ramadoss, Bharathi Raja, Adhimoolam, Karthikeyan, Vedachalam, Vengadessan, Murugesan, Tamilzharasi, Tamilselvan, Anandhan, Singh, Akansha, editor, Singh, Shravan Kumar, editor, and Shrestha, Jiban, editor

Published
2024
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35. β‐Sitosterol—Dietary sources and role in cancer and diabetes management.

Author

Adhimoolam, Karthikeyan, Sureshbabu, Anjana, Smirnova, Elena, Muthuramalingam, Pandiyan, Do Thi, Cat Tuong, Senthil, Kalaiselvi, and Min, Taesun

Subjects
*EVIDENCE gaps, *NUTRITION, *PLANT nutrition, *ETHYL group, *VEGETABLE oils
Abstract

β‐Sitosterol is a major bioactive constituent and the most abundant phytosterol in nuts, seeds, and vegetable oils. It is structurally similar to cholesterol, except for the addition of the ethyl group. The primary benefit of β‐sitosterol is that it lowers the body's absorption of low‐density lipoprotein, or “bad” cholesterol. Research efforts to date and information from the available literature have demonstrated that β‐sitosterol has many pharmacological benefits to improve human health; it effectively prevents heart diseases, cancer, and diabetes. To date, many investigations on β‐sitosterol have been conducted in in vitro and in vivo studies. There are considerable research gaps because there are almost no clinical studies to examine the safety and effectiveness of β‐sitosterol for various human diseases. This review aims to discuss the dietary sources and variations of β‐sitosterol in food crops and how it can successfully prevent cancer and diabetes, including the mechanism underlying these benefits. In addition, we also discuss the research gaps and provide our perspective on future research to propose β‐sitosterol as a nutraceutical candidate to prevent human diseases. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Genetic variation of morphological and yield-related traits in backcrossed and selfed population of maize

Author

Iman Saha, Krishnakumar Rathinavel, Bharani Manoharan, Adhimoolam Karthikeyan, Vellaikumar Sampathrajan, Ravikesavan Rajasekaran, Muthurajan Raveendran, and Natesan Senthil

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Abstract

The number of genes controlling the morphological and yield-related traits and their mode of action plays a vital role in selecting traits and favourable progenies in a segregating population. In this study, we analysed the skewness and kurtosis in the backcrossed and selfed populations of SC11-2×UMI1230β1+. Negative skewness refers to redundant gene activity, positive skewness is connected to complementary gene action. Positive kurtosis suggests the existence of gene activity controlled by a smaller number of genes. Negative kurtosis shows a lack of gene activity and is controlled by a large number of genes. The BC2F2 population of plant height and single plant yield showed positive skewness and platykurtic distribution, suggesting that the genes were governed by complementary gene action and controlled by the large number of genes. This implied need for rigorous selection to achieve a genetic gain in later generations. Cob length and kernel weight showed a duplicate gene action which implied that mild selection can fix these traits and accelerate genetic gain.

Published
2022
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40. Marker-Assisted Genetic Enhancement of Provitamin A in Parental Lines of Sweet Corn Hybrids

Author

Rathinavel, Krishnakumar, Chandran, Sarankumar, Chellamuthu, Abikkumar, Adhimoolam, Karthikeyan, Sampathrajan, Vellaikumar, Rajasekeran, Ravikesavan, Doraiswamy, Uma, Zachariah, John Kennedy, and Natesan, Senthil

Abstract

Sweet corn is cultivated worldwide in tropical and temperate regions, and it is consumed favorably due to its sweet taste, but it is poor in provitamin A carotenoids. For these reasons, by adopting a marker-assisted backcross breeding (MABB) approach, we aimed to enhance the β-carotene concentration in sweet corn inbreds (USC1-2-3-1, SC1107, and 12039-1), which are the parents of popular sweet corn hybrids. β-carotene-rich inbred lines UMI1230β+crossed with these inbreds and progenies are selected based on the gene-specific markers (foreground selection) and SSR markers (background selection). As a result, four improved lines from each cross, viz., USC1-2-3-1 × UMI1230β+, SC1107 × UMI1230β+, and 12039-1 × UMI1230β+with high β-carotene concentration and good agronomic performance (>80%) were obtained. These lines were used to produce hybrids with improved vitamin A content. Furthermore, the improved lines were used to develop the hybrids and tested along with the original hybrids. The hybrids produced by crossing improved lines were on par with the original hybrids regarding grain yield and sweetness with an added advantage of β-carotene. These improved β-carotene-rich sweet corn inbreds and hybrids have enormous potential to reduce malnutrition in a sustainable and economical way.

Published
2024
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42. Characterization of terminal flowering cowpea (Vigna unguiculata (L.) Walp.) mutants obtained by induced mutagenesis digs out the loss-of-function of phosphatidylethanolamine-binding protein.

Author

Eswaramoorthy, Vijayakumar, Kandasamy, Thangaraj, Thiyagarajan, Kalaimagal, Chockalingam, Vanniarajan, Jegadeesan, Souframanien, Natesan, Senthil, Adhimoolam, Karthikeyan, Prabhakaran, Jeyakumar, Singh, Ramji, and Muthurajan, Raveendran

Subjects
COWPEA, LEGUME farming, PLANT mutation, FOOD crops, AGRICULTURE, MUTAGENESIS
Abstract

Cowpea (Vigna unguiculata (L.) Walp) is one of the major food legume crops grown extensively in arid and semi-arid regions of the world. The determinate habit of cowpea has many advantages over the indeterminate and is well adapted to modern farming systems. Mutation breeding is an active research area to develop the determinate habit of cowpea. The present study aimed to develop new determinate habit mutants with terminal flowering (TFL) in locally well-adapted genetic backgrounds. Consequently, the seeds of popular cowpea cv P152 were irradiated with doses of gamma rays (200, 250, and, 300 Gy), and the M1 populations were grown. The M2 populations were produced from the M1 progenies and selected determinate mutants (TFLCM-1 and TFLCM-2) from the M2 generation (200 Gy) were forwarded up to the M5 generation to characterize the mutants and simultaneously they were crossed with P152 to develop a MutMap population. In the M5 generation, determinate mutants (80–81 days) were characterized by evaluating the TFL growth habit, longer peduncles (30.75–31.45 cm), erect pods (160°- 200°), number of pods per cluster (4–5 nos.), and early maturity. Further, sequencing analysis of the VuTFL1 gene in the determinate mutants and MutMap population revealed a single nucleotide transversion (A-T at 1196 bp) in the fourth exon and asparagine (N) to tyrosine (Y) amino acid change at the 143rd position of phosphatidylethanolamine-binding protein (PEBP). Notably, the loss of function PEPB with a higher confidence level modification of anti-parallel beta-sheets and destabilization of the protein secondary structure was observed in the mutant lines. Quantitative real-time PCR (qRT-PCR) analysis showed that the VuTFL1 gene was downregulated at the flowering stage in TFL mutants. Collectively, the insights garnered from this study affirm the effectiveness of induced mutation in modifying the plant's ideotype. The TFL mutants developed during this investigation have the potential to serve as a valuable resource for fostering determinate traits in future cowpea breeding programs and pave the way for mechanical harvesting. [ABSTRACT FROM AUTHOR]

Published
2023
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46. GC/MS Analysis of Essential Oil Composition from Selected Seed Spices

Author

P. Sivakumar, Kaliyaperumal Ashokkumar, S. Vellaikumar, G. Ariharasutharsan, P. Arjun, S. Aiswarya, Adhimoolam Karthikeyan, M. Murugan, and M. K. Dhanya

Subjects
Limonene, Dried fruit, Fenchone, law.invention, chemistry.chemical_compound, chemistry, Linalool, law, Estragole, Food science, Gas chromatography–mass spectrometry, Engineering (miscellaneous), Essential oil, Anethole
Abstract

The chemical composition of essential oil (EO) isolated from dried fruits or seeds of four spices were evaluated by gas chromatography/mass spectrometry (GC/MS) analysis. EO extraction was performed by hydrodistillation method. The results revealed that yields of EO were 0.6%, 4.5%, 1.5%, and 0.8% in coriander, cumin, fennel and Indian mustard, respectively. The GC/MS analysis shown a total of 11, 14, 09 and 13 constituents in the EO isolated from coriander, cumin, fennel and Indian mustard correspondingly. Among the selected four spices, coriander EO had three major constituents linalool (54.23%), cinnamaldehyde (17.01%) and α-pinene (6.12%), while cumin EO showed five major constituents that were 1,4-p-menthadien-7-al, (31.48%), p-cumic aldehyde (26.65%), γ-terpinene (11.79%) and β-pinene (14.46%). Fennel EO had predominantly anethole (69.01%), followed by estragole (12.72%), fenchone (10.02%) and limonene (5.24%). The EO of mustard seeds registered higher concentration of 3-butenyl isothiocyanate (84.36%) and allyl-isothiocyanate (8.52%). The results presented in this paper would be useful for future investigations that could lead to the identification of the health benefits of EO from spices.

Published
2021
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47. Digs out and characterization of the resistance gene accountable to soybean mosaic virus in soybean (Glycine max (L.) Merrill)

Author

Tongtong Jin, Adhimoolam Karthikeyan, Liqun Wang, Tingxuan Zong, Tao Wang, Jinlong Yin, Ting Hu, Yunhua Yang, Hui Liu, Yongchun Cui, Tuanjie Zhao, and Haijian Zhi

Subjects
Genetics, General Medicine, Agronomy and Crop Science, Biotechnology
Abstract

A putative candidate gene conferring resistance to SMV strain SC1 was identified on chromosome 2, and the linked marker was validated in soybean cultivars Soybean mosaic, caused by the soybean mosaic virus, is the most common disease in soybean and a significant impediment to soybean production in the Huanghuai and Yangtze River regions of China. Kefeng No.1, a soybean cultivar, showed high resistance to soybean mosaic virus strain (SC1) collected from Huanghuai and Yangtze River regions. Genetic analysis based on the Mendelian genic population derived from the cross Kefeng No.1 × Nannong 1138-2 revealed that Kefeng No.1 possesses a single dominant gene. Furthermore, genetic fine-mapping using an F

Published
2022

49. Genetics and molecular markers for anthocyanin pigmentation in barnyard millet ( Echinochloa frumentacea (Roxb.) Link)

Author

Angamuthu Nirmalakumari, Senthil Natesan, Adhimoolam Karthikeyan, Kannan Veni, C. Vanniarajan, V. G. Renganathan, and Jegadeesan Ramalingam

Subjects
chemistry.chemical_compound, biology, chemistry, Echinochloa frumentacea, Anthocyanin, Botany, Genetics, Plant Science, biology.organism_classification, Agronomy and Crop Science
Published
2021
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50. Differentiating Callosobruchus of South India with Special Reference to Callosobruchus maculatus - A Useful Guide for Entomologists and Non-Entomologists

Author

Devina Seram, Senthil Natesan, Pandiyan Muthaiyan, Adhimoolam Karthikeyan, and Kennedy John Samuel

Abstract

Losses of seed produce in pulses due to seed beetles is a very serious problem faced by farmers and traders during storage. Resistance (or susceptibility) and the degree of damage in legume seeds differ with respect to different bruchid species. The seed beetles, Callosobruchus chinensis and C. maculatus, are the two most widespread bruchid species in Southern India, which is being potentially misidentified. With this perspective, fundamental studies on their morphology are of great importance for correct identification, species specific resistant variety improvement and management. For a reliable and effective resistance evaluation in breeding program, a known, identified species or biotype must be employed. In this study, dissection of striking external morphological characters of both the species was done for comparisons. Type of antennae and hind femur are two common characters used for distinguishing these allied species. However, the most reliable genus and species indicators are variation in the spines on the underside of hind femur. The possible distinguishing characters of these two widespread species are illustrated in light of previously published literatures including other rare Callosobruchus species found in India viz. C. nigritus and C. orientalis, reported from Manipur, India. Furthermore, Scanning Electron Microscope study of South Indian C. maculatus strain revealed the presence of different types of sensilla on mouthparts and antennal regions, which had different functions. It is expected that this paper will provide practical information to both entomologists and non-entomologists working on bruchids especially plant breeders involved in resistant varietal development in the tropics and sub-tropical countries.

Published
2022
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