BackgroundDengue and leptospirosis infections are currently two major endemics in Malaysia. Owing to the overlapping clinical symptoms between both the diseases, frequent misdiagnosis and confusion of treatment occurs. As a solution, the present work initiated a pilot study to investigate the incidence related to co-infection of leptospirosis among dengue patients. This enables the identification of more parameters to predict the occurrence of co-infection.MethodTwo hundred sixty eight serum specimens collected from patients that were diagnosed for dengue fever were confirmed for dengue virus serotyping by real-time polymerase chain reaction. Clinical, laboratory and demographic data were extracted from the hospital database to identify patients with confirmed leptospirosis infection among the dengue patients. Thus, frequency of co-infection was calculated and association of the dataset with dengue-leptospirosis co-infection was statistically determined.ResultsThe frequency of dengue co-infection with leptospirosis was 4.1%. Male has higher preponderance of developing the co-infection and end result of shock as clinical symptom is more likely present among co-infected cases. It is also noteworthy that, DENV 1 is the common dengue serotype among all cases identified as dengue-leptospirosis co-infection in this study.ConclusionThe increasing incidence of leptospirosis among dengue infected patients has posed the need to precisely identify the presence of co-infection for the betterment of treatment without mistakenly ruling out either one of them. Thus, anticipating the possible clinical symptoms and laboratory results of dengue-leptospirosis co-infection is essential.
The freezing–thawing method had been reported to be the best phycobiliprotein extraction technique. However, optimum parameters of this extraction method for Arthrospira sp. (one of the major phycobiliprotein sources) still remained unclear. Hence, this study aimed to optimize the freezing–thawing parameters of phycobiliprotein extraction in Arthrospira sp. (UPMC-A0087). The optimization of the freezing–thawing method was conducted using different solvents, biomass/solvent ratios, temperatures, time intervals and freezing–thawing cycles. The extracted phycobiliproteins were quantified using a spectrophotometric assay. Double distilled water (pH 7) with a 0.50% w/v biomass/solvent ratio was the most efficient solvent in extracting high concentrations and purity of phycobiliproteins from Arthrospira sp. In addition, the combination of freezing at −80 °C (2 h) and thawing at 25 °C (24 h) appeared to be the optimum temperature and extraction time to obtain the highest amount of phycobiliproteins. A minimum of one cycle of freezing and thawing was sufficient for extracting high concentrations of phycobiliproteins. The findings from this study could reduce the cost and labor needed for extracting high quality phycobiliproteins. It also allowed the harvesting of large amounts of valuable phycobiliproteins.
Fucoxanthin is one of the light-harvesting pigments in brown microalgae, which is increasingly gaining attention due to its numerous health-promoting properties. Currently, the production of microalgal fucoxanthin is not yet feasible from an economic perspective. However, the cultivation of microalgae at favourable conditions holds great potential to increase the viability of this fucoxanthin source. Hence, this study aimed to review the fucoxanthin production of microalgae under different conditions systematically. A literature search was performed using the Web of Science, Scopus and PubMed databases. A total of 188 articles were downloaded and 28 articles were selected for the current review by two independent authors. Microalgae appeared to be a more reliable fucoxanthin source compared to macroalgae. Overall, a consensus fucoxanthin production condition was obtained and proposed: light intensity ranging from 10 to 100 µmol/m2/s could achieve a higher fucoxanthin content. However, the optimal light condition in producing fucoxanthin is species-specific. The current review serves as an antecedent by offering insights into the fucoxanthin-producing microalgae response to different culture factors via a systematic analysis. With the current findings and recommendations, the feasibility of producing fucoxanthin commercially could be enhanced and possibly achieve practical and sustainable fucoxanthin production.
Fucoxanthin is a major carotenoid in brown macroalgae and diatoms that possesses a broad spectrum of health benefits. This review evaluated the research trends of the fucoxanthin field from 1928 to June 2021 using the bibliometric method. The present findings unraveled that the fucoxanthin field has grown quickly in recent years with a total of 2080 publications. Japan was the most active country in producing fucoxanthin publications. Three Japan institutes were listed in the top ten productive institutions, with Hokkaido University being the most prominent institutional contributor in publishing fucoxanthin articles. The most relevant subject area on fucoxanthin was the agricultural and biological sciences category, while most fucoxanthin articles were published in Marine Drugs. A total of four research concepts emerged based on the bibliometric keywords analysis: “bioactivities”, “photosynthesis”, “optimization of process’’, and “environment”. The “bioactivities” of fucoxanthin was identified as the priority in future research. The current analysis highlighted the importance of collaboration and suggested that global collaboration could be the key to valorizing and efficiently boosting the consumer acceptability of fucoxanthin. The present bibliometric analysis offers valuable insights into the research trends of fucoxanthin to construct a better future development of this treasurable carotenoid.
Basella alba (family Basellaceae) is a perennial vine that serves as an edible leaf vegetable in Malaysia. In May 2021, red spots were observed on leaf samples of B. alba in Lido, Sabah Province (5°56'39.1"N, 116°04'47.6"E). The disease severity was about 20% with 10% incidence. The spots enlarged and coalesced into larger necrotic spots. Small pieces (5 x 5 mm) of infected leaves were excised from three plants, and then surface disinfected based on Khoo et al. (2022). One fungal isolate (Lido01) was isolated and cultured on potato dextrose agar (PDA) at 25°C. A single isolate with cottony aerial mycelia and pink concentric rings was observed on the upper surface of the culture. Unicellular and multicellular chlamydospores were observed, and measured 7.1 to 14.3. × 17.8 to 74.5 μm. Conidia were unicellular, hyaline, oval, and measured 3.8 to 5.2 x 1.7 to 2.7 μm (n= 20). Pycnidia were spheroid, and measured 66.2 to 114.3 x 44.1 to 86.1 μm (n= 20). Genomic DNA was extracted from fresh mycelia according to the extraction method of Khoo et al. (2022a and 2022b). ITS1/ITS4, LR0R/LR7, ACT512F/ACT783R, and T10/Bt2b primers were used to amplify the internal transcribed spacer (ITS), large subunit (LSU), actin (ACT), and tubulin (TUB) genes, respectively (O’Donnell and Cigelnik, 1997; Chen et al. 2021). PCR products were Sanger sequenced by Apical Scientific Sdn. Bhd. (Serdang, Malaysia). Sequences of isolate Lido01 were deposited in GenBank as OM501130 (ITS), OM501128 (LSU), OM513916 (ACT) and OM513917 (TUB). Respective gene sequences of this isolate showed 100% homology to ITS sequence of isolate BPL01 (OM453926) (507/507 bp), LSU sequence of isolate BPL01 (OM453925) (1328/1328 bp), ACT sequence of isolate CZ01 (MN956831) (275/275 bp) and TUB sequence of isolate BJ-F1 (MF987525) (556/556 bp). The sequences of Lido01 established a supported clade (99% bootstrap value) to the related Epicoccum sorghinum type sequences, according to phylogenetic analysis using maximum likelihood based on the concatenated ITS, ACT, and TUB sequences. Morphological characters also matched the description of E. sorghinum (Li et al. 2020). Koch's postulates were tested as described by Chai et al. (2017) with modification by spray inoculation (106 spores/ml) on the leaves of three healthy one-month-old B. alba, while sterilized distilled water served as the control treatment. Monitoring and incubation were performed in a greenhouse based on Iftikhar et al. (2022). All inoculated leaves developed symptoms as described above by 8 days post-inoculation, whereas no symptoms occurred on controls, thus fulfilling Koch’s postulates. The experiment was repeated twice. The reisolated pathogen was morphologically and genetically identical to E. sorghinum. E. sorghinum was reported causing leaf spot on Brassica parachinensis (Yu et al. 2019), Camellia sinensis (Bao et al. 2019), Myrica rubra (Li et al. 2020), Oryza sativa (Liu et al. 2020) and Zea mays (Chen et al. 2021). To our knowledge, this is the first report of E. sorghinum causing leaf spot on B. alba in Malaysia. Our findings have expanded the geographic range and host range of E. sorghinum in Malaysia, though the host range of this isolate is not known.
Phycobiliproteins are gaining popularity as long-term, high-value natural products which can be alternatives to synthetic products. This study analyzed research trends of phycobiliproteins from 1909 to 2020 using a bibliometric approach based on the Scopus database. The current findings showed that phycobiliprotein is a burgeoning field in terms of publications outputs with “biochemistry, genetics, and molecular biology” as the most related and focused subject. The Journal of Applied Phycology was the most productive journal in publishing articles on phycobiliproteins. Although the United States of America (U.S.A.) contributed the most publications on phycobiliproteins, the Chinese Academy of Sciences (China) is the institution with the largest number of publications. The most productive author on phycobiliproteins was Glazer, Alexander N. (U.S.A.). The U.S.A. and Germany were at the forefront of international collaboration in this field. According to the keyword analysis, the most explored theme was the optimization of microalgae culture parameters and phycobiliproteins extraction methods. The bioactivity properties and extraction of phycobiliproteins were identified as future research priorities. Synechococcus and Arthrospira were the most cited genera. This study serves as an initial step in fortifying the phycobiliproteins market, which is expected to exponentially expand in the future. Moreover, further research and global collaboration are necessary to commercialize phycobiliproteins and increase the consumer acceptability of the pigments and their products.
Human rhinovirus-C (HRV-C) has been implicated in more severe illnesses than HRV-A and HRV-B, however, the limited number of HRV-C complete genomes (complete 5′ and 3′ non-coding region and open reading frame sequences) has hindered the in-depth genetic study of this virus. This study aimed to sequence seven complete HRV-C genomes from Malaysia and compare their genetic characteristics with the 18 published HRV-Cs. Seven Malaysian HRV-C complete genomes were obtained with newly redesigned primers. The seven genomes were classified as HRV-C6, C12, C22, C23, C26, C42, and pat16 based on the VP4/VP2 and VP1 pairwise distance threshold classification. Five of the seven Malaysian isolates, namely, 3430-MY-10/C22, 8713-MY-10/C23, 8097-MY-11/C26, 1570-MY-10/C42, and 7383-MY-10/pat16 are the first newly sequenced complete HRV-C genomes. All seven Malaysian isolates genomes displayed nucleotide similarity of 63–81% among themselves and 63–96% with other HRV-Cs. Malaysian HRV-Cs had similar putative immunogenic sites, putative receptor utilization and potential antiviral sites as other HRV-Cs. The genomic features of Malaysian isolates were similar to those of other HRV-Cs. Negative selections were frequently detected in HRV-Cs complete coding sequences indicating that these sequences were under functional constraint. The present study showed that HRV-Cs from Malaysia have diverse genetic sequences but share conserved genomic features with other HRV-Cs. This genetic information could provide further aid in the understanding of HRV-C infection.
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