Your search keyword '"Kianoush Khosravi_Darani"' showing total 193 results

1. Impact of simulated microgravity on bioremoval of heavy-metals by Lactobacillus acidophilus ATCC 4356 from water

Author

Zahra Afsharian, Maryam Salavatifar, and Kianoush Khosravi_Darani

Subjects

Complex stability, Heavy metals, L. acidophilus, Simulated microgravity, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

There are several reports about the effect of gravity removal on some characteristics of microorganisms due to possible change in surface layer thickness and adherence properties. In this study, bioremoval efficiency of Lactobacillus acidophilus ATCC 4356 from water under simulated microgravity conditions was investigated. Furthermore, pretreatment effects (untreated, NaOH, and heat pretreated) of L. acidophilus ATCC 4356 on heavy metal removal was evaluated on microgravity, as our previous research showed impact of pretreatment on adherence properties of probiotics to environmental metals. The results showed that ability of L. acidophilus for arsenic adsorption enhanced following heat-pretreatment in simulated and normal gravity. Moreover, in both conditions of simulated microgravity and normal gravity NaOH-treated L. acidophilus increased the removal of cadmium and lead. In none of the conditions, pretreatment of lactobacillus affects mercury removal. Evaluation of stability of binding of L. acidophilus-heavy metal was investigated to check irreversibility of complex formation between microorganisms and metals in simulated gastrointestinal conditions. Data showed release of heavy metals from complex in normal gravity. Obtained results of this research show the favorable potential of simulated microgravity condition to increase bioremoval capacity of L. acidophilus for heavy metals.

Published

2022

2. Risk of low stability Saccharomyces cerevisiae ATCC 9763-heavy metals complex in gastrointestinal simulated conditions

Author

Razieh Sadat Mirmahdi, Vahid Mofid, Alaleh Zoghi, Kianoush Khosravi_Darani, and Amir Mohammad Mortazavian

Subjects

Decontamination, Heavy metal, Pretreatment, Gastrointestinal conditions, Yeast-metal stability, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The biosorption of heavy metals by microorganisms has attracted the interest of food researchers as the last approach to reduce the risk of their absorption in the human body. But the stability of yeast-metal complexes under simulated gastrointestinal conditions has not been investigated. In this study stability of complex as well as isotherm and kinetic models of biosorption have been studied. Also, the impact of some pretreatment on yeast biosorption was studied to check the possible impact of different environmental conditions in food processing. Data showed a risk of heavy metal release in simulated gastrointestinal conditions. The best biosorption of metals from aqueous solutions by Saccharomyces (S.) cerevisiae may be achieved after NaOH pretreatment for Mercury (Hg) 92.7%. While biosorption of Lead (Pb) 37.48%, Arsenic (As) 19.44%, and Cadmium (Cd) 39.9% by untreated yeast were better. In gastrointestinal conditions, Hg and Cd-yeast complexes were more stable and biosorption of Cd and Pb increased. Bonds of As and Hg-yeast complexes in digestion conditions were reversible. The metals biosorption by untreated yeast followed the pseudo-second-order kinetic and the Langmuir isotherm model for Hg, Pb, and Cd and Freundlich for As. Results showed that biosorption of heavy metals by S. cerevisiae, although may decrease metal bioavailability in fermented foods, the complex is not enough stable in gastrointestinal conditions.

Published

2022

3. Investigation of impact of siderophore and process variables on production of iron enriched Saccharomyces boulardii by Plackett–Burman design

Author

Kiyana Tafazzoli, Mehrdad Ghavami, and Kianoush Khosravi-Darani

Subjects

Bioaccumulation, Design of experiments, Enrichment, Iron enriched yeast, Fe, FeY, Medicine, Science

Abstract

Abstract The primary cause of anemia worldwide is due to poor diet and iron deficiency. Iron (Fe) enriched yeast can be the most effective way to manage anemia because of the capability for biotransformation of mineral to organic and bioavailable iron. To overcome the low richness of yeast, the use of siderophore as cellular iron carriers is a new approach. In this research, for the first time the potential of siderophore in increasing the Fe enrichment of Saccharomyces boulardii (S. boulardii), which is important because of its probiotic properties and resistance to different stresses, has been investigated to produce of potential iron supplements. For this purpose, siderophore was produced by Pseudomonas aeruginosa (P. aeruginosa). Siderophore impact, along with ten other independent process variables, has been studied on the efficiency of iron biotransformation by the Plackett–Burman design (PBD). The results showed that the highest biotransformation yield was 17.77 mg Fe/g dry cell weight (DCW) in the highest biomass weight of 9 g/l. Iron concentration is the most important variable, with contributions of 46% and 70.79% for biomass weight and biotransformation, respectively, followed by fermentation time, agitation speed, and KH2PO4 concentration. But increasing the level of siderophore and zinc led to a significant negative effect. siderophore inefficiency may be attributed to the absence of membrane receptors for pyoverdine (Pvd) and pyochelin (Pch) siderophores. Also, the steric hindrance of the cell wall mannan, the stickiness and sediment ability of the yeast, can create limitations in the absorption of elements. Such yeast can be used as a potential source of iron even for vegetarians and vegans in the form of medicinal and fortified food products to improve the treatment of anemia. It is recommended that further research be focused on increasing the iron enrichment of yeast by overcoming the structural barrier of the cell wall, investigating factors affecting membrane permeability and iron transport potential of other types of siderophores.

Published

2024

4. Production of iron enriched Saccharomyces boulardii: impact of process variables

Author

Kiyana Tafazzoli, Mehrdad Ghavami, and Kianoush Khosravi-Darani

Subjects

Box-Behnken, Bioaccumulation, Design of experiments, Enriched yeast, FeY, Probiotic yeast, Medicine, Science

Abstract

Abstract About half of the 1.62 billion cases of anemia are because of poor diet and iron deficiency. Currently, the use of iron-enriched yeasts can be used as the most effective and possible way to prevent and treat anemia due to the ability of biotransformation of mineral compounds into the organic form. In this research, for the first time, Saccharomyces (S.) boulardii was used for iron enrichment with the aim that the probiotic properties of yeast provide a potential iron supplement besides improving the bioavailability of iron. Also, due to its higher resistance than other Saccharomyces strains against stresses, it can protect iron against processing temperatures and stomach acidic-enzymatic conditions. So, the effect of three important variables, including concentration of iron, molasses and KH2PO4 on the growth and biotransformation of yeast was investigated by the Box-Behnken design (BBD). The best conditions occurred in 3 g/l KH2PO4, 20 g/l molasses and 12 mg/l FeSO4 with the highest biotransformation 27 mg Fe/g dry cell weight (DCW) and 6 g/l biomass weight. Such yeast can improve fermented products, provide potential supplement, and restore the lost iron of bread, which is a useful iron source, even for vegetarians-vegans and play an important role in manage with anemia. It is recommended that in future researches, attention should be paid to increasing the iron enrichment of yeast through permeabilizing the membrane and overcoming the structural barrier of the cell wall.

Published

2024

5. Polycaprolactone (PCL)-based films integrated with hairy cellulose nanocrystals and silver nanoparticles for active Tilapia packaging applications

Author

Negin Ahmadi, Hamed Ahari, Amirali Anvar, Kianoush Khosravi-Darani, and Maryam Gharachorloo

Subjects

Polycaprolactone film, Hairy cellulose nanocrystals, Silver nanoparticles, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

The migration of metal ions to the food matrix has been always a challenge in the production of active food packaging films. In this study, it was tried to evaluate the idea of using hairy cellulose nanocrystals (HCNs) in controlling the migration of Silver Nanoparticles (AgNPs) from polycaprolactone (PCL)-based films to the Tilapia fish. HCNs and the final films (integrated with various amounts of HCNs and AgNPs) were evaluated physicochemically and mechanically. Tilapia fish were packed using the films and after specific periods, the fish samples were assessed microbiologically and physiochemically. According to the results, incorporating NPs into PCL films enhanced tensile strength, elasticity, and toughness making the films more resistant to breakage and deformation under stress. The introduction of HCNs reduced the surface roughness level, decreasing AgNPs migration, but also accelerated the degradation rate. Films with [1% AgNPs +2% HCNs] and [1% AgNPs] had the lowest and highest water vapor transmission rate. The use of AgNPs (1%) + HCNs (2%) incorporated into PCL films resulted in a lower pH value, TVB-N, TBARs, and PV. It also decreased microbial activities in samples in comparison to the control. Therefore, the idea of using HCNs along with antibacterial metal-based nanoparticles can control the rate of ion migration.

Published

2024

6. Antimicrobial activities, phenolic and flavonoid contents, antioxidant and DNA protection of the internal and outer layers of Allium cepa L. from Iran

Author

Niloufar Mardani, Mahshid Jahadi, Mahshid Sadeghian, Kourosh Keighobadi, and Kianoush Khosravi-Darani

Subjects

Allium cepa L., Antioxidant activity, DNA protection, Flavonoid, Phenolic, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Allium cepa L., known as a wild onion in Iran with different high antioxidant and antimicrobial activities in internal and outer layers. The aim of this study was to assess phenolic and flavonoid contents as well as antioxidant and antimicrobial activities of the internal and outer layers of ten Iranian onions (Allium cepa L.) landrace and compare them with three hybrid onions. Results showed that the total phenolic, flavonoid contents and the antioxidant capacity of the onions ranged 18.76–65.25 (mg GAE/g DW), 0.06–1.92 (mg/g DW) and 10.34–40.54%, respectively. The results showed higher total phenolic and flavonoid content as well as antioxidant activity and protection of pBR322 DNA in the outer layer in compare to internal ones due to higher hydroxyl radicals. Based on the results, the present study showed that red onions such as landraces originated from Azarshahr and Nowshahr included the highest quantities of phenolic and flavonoid contents as well as antioxidant activity and DNA protection values. Inhibition zone and minimum inhibitory and minimum microbicidal concentration of internal layer of onion from Kahrizak were significantly different from others (p

Published

2023

7. Exploration and Understanding of Beneficial Properties of Lactic Acid Bacteria: 10 years of experience in Applied Food Biotechnology

Author

Svetoslav Dimitrov Todorov, Richard Weeks, Kianoush Khosravi-Darani, and Michail Leonidas Chikindas

Subjects

lactic acid bacteria, probiotics, bacteriocins, Biotechnology, TP248.13-248.65

Abstract

The scientific community is currently facing a more than exponential increase of knowledge in all areas and disciplines. In the last 10 years, the contribution of the journal Applied Food Biotechnology was eminent in distributing that knowledge by providing a tribune for researchers from different countries all over the world to share their ideas, observations, and hypotheses. With a focus on different aspects of applied and fundamental biological sciences, the journal Applied Food Biotechnology was established as a reference of the Iranian scientific community. In the last 10 years, the journal has been covering several topics related to exploring the beneficial properties of lactic acid bacteria (LAB) and their role in modern food technologies. LAB are already proven as a realization of Hippocrates' vision for the potential role of food in human and other animals' health. However, what will be the next frontier? What are the challenges in understanding the interactions between microbiota and host microorganisms? What will be the novel analytical tools, facilitating a new era of probiotic research? These were only a few research topics presented and discussed in Applied Food Biotechnology in the last decade. This editorial overview aims to celebrate the scientific contribution of Applied Food Biotechnology in the area of research associated with the beneficial properties of LAB, summarizing some of the studies published in the journal.

Published

2023

8. Biopolymeric Nanoparticles, Pickering Nanoemulsions and Nanophytosomes for Loading of Zataria multiflora Essential Oil as a Biopreservative

Author

Mansoureh Taghizadeh, Seid Mahdi Jafari, Kianoush Khosravi Darani, Mahmood Alizadeh sani, Saeedeh Shojaee Aliabadi, Nader Karimian Khosroshahi, and Hedayat Hosseini

Subjects

▪ chemical analysis ▪ emerging nanocarriers ▪ meat products ▪ nanophytosome ▪ pickering nanoemulsions ▪ shelf life, Biotechnology, TP248.13-248.65

Abstract

Background and Objective: Essential oils include low solubility, poor bioavailability and rapid release, which may limit their use as bioactive compounds in foods and medicine. Nanoencapsulation can preserve inherent qualities of essential oils and improve their physicochemical characteristics and health benefits. Focus of the present study was on the loading of essential oils from Zataria multiflora in pickering nanoemulsions, nanoparticles and nanophytosome. In addition, the present study assessed how these systems affected their physicochemical characteristics and antioxidant and antimicrobial activities, compared to free-essential oils. Material and Methods: Encapsulation of Zataria multiflora Boiss essential oil in nanocarriers as a novel phytoconstituents delivery system was carried out using three various methods. Physicochemical characterization of nanocarriers was studied using dynamic light scattering, Fourier transform infrared spectroscopy, field emission scanning electron microscope, confocal laser scanning microscopy, optical microscope and antioxidant activity. The minimum inhibitory and bactericidal concentration assessment effects against Listeria monocytogenes at 24 h and temperatures (10, 25 and 37 °C) were investigated. Encapsulated Zataria multiflora Boiss essential oil with subinhibitory concentrations (0.25, 0.5 and 0.75) in hamburger formulation was selected as a food model for chemical, microbiological and sensory evaluation. Results and Conclusion: In general, this study compared three types of biocarriers with free essential oils. Primarily, nanophytosome showed promising results in delaying oxidation and in antimicrobial and sensory assessments, compared to two other nanocarriers. In conclusion, essential oil nanophytosomes of Zataria multiflora Boiss include the potential as an efficient natural food preservative. Conflict of interest: The authors declare no conflict of interest.

Published

2023

9. P3HB from CH4 using methanotrophs: aspects of bioreactor, fermentation process and modelling for cost-effective biopolymer production

Author

Parya Safaeian, Fatemeh Yazdian, Kianoush Khosravi-Darani, Hamid Rashedi, and Maximilian Lackner

Subjects

bioreactor, poly-3-hydroxybutyrate (P3HB), polyhydroxyalkanoates (PHA), vertical tubular loop bioreactor, horizontal tubular loop bioreactor (HTLB), forced liquid flow, Biotechnology, TP248.13-248.65

Abstract

P3HB (poly-β-hydroxybutyrate), an energy-storage compound of several microorganisms, can be used as bioplastics material. P3HB is completely biodegradable under aerobic and aerobic conditions, also in the marine environment. The intracellular agglomeration of P3HB was examined employing a methanotrophic consortium. Supplanting fossil, non-degradable polymers by P3HB can significantly reduce the environmental impact of plastics. Utilizing inexpensive carbon sources like CH4 (natural gas, biogas) is a fundamental methodology to make P3HB production less costly, and to avoid the use of primary agricultural products such as sugar or starch. Biomass growth in polyhydroxyalkanoates (PHA) in general and in Poly (3-hydroxybutyrate) manufacture in specific could be a foremost point, so here the authors focus on natural gas as a proper carbon source and on the selection of bioreactors to produceP3HB, and in future further PHA, from that substrate. CH4 can also be obtained from biomass, e.g., biogas, syngas methanation or power-to-gas (synthetic natural gas, SNG). Simulation software can be utilized for examination, optimizing and scale-up of the process as shown in this paper. The fermentation systems continuously stirred tank reactor (CSTR), forced-liquid vertical loop bioreactor (VTLB), forced-liquid horizontal tubular loop bioreactor (HTLB), airlift (AL) fermenter and bubble column (BC) fermenter were compared for their methane conversion, kLa value, productivity, advantages and disadvantages. Methane is compared to methanol and other feedstocks. It was discovered that under optimum processing circumstances and using Methylocystis hirsuta, the cells accumulated 51.6% cell dry mass of P3HB in the VTLB setup.

Published

2023

10. Detection of Microorganisms Using Graphene-Based Nanobiosensors

Author

Mehrab Pourmadadi, Fatemeh Yazdian, Sara Hojjati, and Kianoush Khosravi-Darani

Subjects

graphene, graphene oxide, reduced graphene oxide, graphene quantum dots, microorganism detection, nanobiosensors, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

Having an insight into graphene and graphene derivatives such as graphene oxide, reduced graphene oxide and graphene quantum dots is necessary since it can help scientists to detect possible properties and features that could be useful when using these carbon materials in preparation of a nanocomposites. In recent years, graphene and its derivatives have attracted a lot of attention and been extensively applied in biosensors due to fascinating properties, such as large surface area, optical and magnetic properties, and high elasticity for the detection of microorganisms as they can be modified with some other materials such as macromolecules, oxide metals and metals to improve the electrochemical behaviour of the biosensor. In this review paper, biosensor design strategies based on graphene and its derivatives (graphene-based nanocomposites in biosensors) are described. Then their application for the detection of microorganisms including prions, viroids, viral and bacterial cells as well as fungi, protozoa, microbial toxins and even microbial sources of antibiotics is reviewed.

Published

2021

11. Improving the Chemical and Sensory Properties of Cheddar Cheese Using Adjunct Cultures

Author

Kianoush Khosravi-Darani and Ramona Massoud

Subjects

Nutrition and Dietetics, Public Health, Environmental and Occupational Health, Food Science

Abstract

Background: Dairy consumption and especially cheese consumption has been increasing in most countries of the world due to its favorable taste. European countries and the United States are the major producers and consumers of cheese. Due to the nutritional and economic importance of cheese, various schemes have been considered to increase its consumption and the most important of which is to improve its sensory properties. Several factors affect the development of cheese properties including chemical composition, residual coagulation factors, enzymes in milk, microbial flora of cheese and the storage conditions during the ripening stage, microorganisms in cheese especially lactic acid bacteria. Objective: Various methods have been studied to improve the sensory properties of cheese in the world and the most successful of which is the addition of adjunct culture. Adjunct cultures are a variety of selected microorganisms that are added to milk to improve the sensory quality or to accelerate the ripening of the product. The major adjunct cultures are lactobacilli. Many studies show that Lactobacillus helveticus LH212 and Lactobacillus helveticus CNRZ32 are among the most desirable bacteria. Adjunct cultures are used in two ways: attenuated and live cultures. There are several methods for preparing attenuated cultures, but most researchers focus on physical methods such as heat shock, freezing shock and spray drying. Conclusion: The purpose of this article is to express the role of adjunct cultures (types of Lactobacilli) in the sensory properties of cheddar cheese, selection criteria, and the amount, and time of adding adjunct cultures in the cheese-making process.

Published

2023

12. Fed-Batch Production of a Fermented Beverage Containing Vitamin B12

Author

Kianoush Khosravi-Darani, Solmaz Zarean, Negin Ahmadi, Zahra Hadian, and Amir Mohammad Mortazavian

Subjects

co-culture, fed-batch fermentation, plackett-burman, process variables, propionibacterium freudenreichii, propionic acid, vitamin b12, Chemical engineering, TP155-156, Chemistry, QD1-999

Abstract

Production of fermented functional foods containing micronutrients is required for their health beneficial properties. The impact of 11 process variables on vitamin B12 production in a dairy beverage containing propionic acid was investigated. Propionibacterium freudenreichii ssp. shermanii was applied in a 3-l fermentor in the fed-batch fermentation system. The most suitable conditions for vitamin B12 production were achieved by 5% v/v inoculum size containing Propionibacterium freudenreichii (without Lactobacillus acidophilus) and continuous feeding of lactose with the rate of 0.04 l/h at 36°C in a medium containing 25 g/L molasses, 10 g/L corn steep liquor, at pH=6.5, after 96 h fermentation. Maximum vitamin concentration (30 mg/L) and productivity (7.5 mg/L.day) were obtained in trial 9. Organoleptic properties of the fermented beverage were also acceptable for panelists and no significant difference was observed between samples and control during 6 days refrigerated storage.

Published

2019

13. Bioremediation of heavy metals in food industry: Application of Saccharomyces cerevisiae

Author

Ramona Massoud, Mohammad Rasoul Hadiani, Pegah Hamzehlou, and Kianoush Khosravi-Darani

Subjects

Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Abstract

Heavy metals are natural elements in the Earth’s crust that can enter human food through industrial or agricultural processing, in the form of fertilizers and pesticides. These elements are not biodegradable. Some heavy metals are known as pollutants and are toxic, and their bioaccumulation in plant and animal tissues can cause undesirable effects for humans; therefore, their amount in water and food should always be under control. The aim of this study is to investigate the conditions for the bioremediation of heavy metals in foods. Various physical, chemical, and biological methods have been used to reduce the heavy metal content in the environment. During the last decades, bioremediation methods using plants and microorganisms have created interest to researchers for their advantages such as being more specific and environmentally friendly. The main pollutant elements in foods and beverages are lead, cadmium, arsenic, and mercury, which have their own permissible limits. Among the microorganisms that are capable of bioremediation of heavy metals, Saccharomyces cerevisiae is an interesting choice for its special characteristics and being safe for humans, which make it quite common and useful in the food industry. Its mass production as the byproduct of the fermentation industry and the low cost of culture media are the other advantages. The ability of this yeast to remove an individual separated element has also been widely investigated. In countries with high heavy metal pollution in wheat, the use of S. cerevisiae is a native solution for overcoming the problem of solution.This article summarizes the main conditions for heavy metal absorption by S. cerevisiae.How to cite: Massoud R, Hadiani MR, Khosravi Darani K, et al. Bioremediation of heavy metals in food industry: Application of Saccharomyces cerevisiae. Electron J Biotechnol 2019;37. https://doi.org/10.1016/j.ejbt.2018.11.003. Keywords: Arsenic, Bioaccumulation, Bioremediation, Biosorption, Cadmium, Foods, Heavy metals, Lead, Mercury, Pollutants, Yeast

Published

2019

14. Influencing factors on single-cell protein production by submerged fermentation: A review

Author

S. Fatemeh S. Reihani and Kianoush Khosravi-Darani

Subjects

Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Abstract

Since more than twenty years ago, some species of bacteria and fungi have been used to produce protein biomass or single-cell protein (SCP), with inexpensive feedstock and wastes being used as their sources of carbon and energy. The role of SCP as a safe food and feed is being highlighted more because of the worldwide protein scarcity. Even though SCP has been successfully commercialized in the UK for decades, study of optimal fermentation conditions, various potential substrates, and a broad range of microorganisms is still being pursued by many researchers. In this article, commonly used methods for the production of SCP and different fermentation systems are briefly reviewed, with submerged fermentation being highlighted as a more commonly used method. Emphasis is given to the effect of influencing factors on the biomass yield and productivity in an effort to provide a comprehensive review for researchers in related fields of interest.How to cite: Reihani SFS, Khosravi-Darani K. Influencing factors on single cell protein production by submerged fermentation: A review. Electron J Biotechnol 2019;37. https://doi.org/10.1016/j.ejbt.2018.11.005. Keywords: Aeration, Agricultural waste, Algae, Bacteria, Biomass, Fermentation condition, Fungi, Population growth, Poverty, Protein demand, Single-cell protein, Submerged fermentation

Published

2019

15. Production of Arachidonic Acid and Eicosapentaenoic Acid by Mortierella alpina CBS 528.72 on Date Waste

Author

Seyedeh Zeinab Asadi, Kianoush Khosravi-Darani, Houshang Nikoopour, and Hossein Bakhoda

Subjects

arachidonic acid (ARA), date waste, experimental design, eicosapentaenoic acid (EPA), Mortierella alpina, solid-state fermentation, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

Arachidonic acid (ARA) and eicosapentaenoic acid (EPA) are important for human health and are produced by the fungus Mortierella alpina. Fermentation conditions may affect fatty acid profile of produced oil. Substrates in solid-state fermentation are usually renewable and low-cost agro-industrial waste. The aim of this research is to study simultaneous production of ARA and EPA by M. alpina CBS 528.72 in solid-state fermentation. Date waste and soybean meal served as carbon and nitrogen sources, respectively. Plackett-Burman design was used to evaluate the impact of eleven process variables on ARA and EPA production. Analysis of the results showed that the main variables with significant impact on production include seed age, and supplementation of linseed oil and nitrogen. These three variables were then studied in a central composite design for the optimization of production of both fatty acids. Finally, reconfirmation test was conducted to obtain experimental results from predicted optimum conditions. This report showed that simultaneous optimization of the production of ARA and EPA by M. alpina CBS 528.72 on date waste can be achieved by modification of process variables in solid-state fermentation.

Published

2018

16. Impact of ultrasound and medium condition on production of selenium-enriched yeast

Author

Sadegh Alijan, Marzieh Hosseini, Saeideh Esmaeili, and Kianoush Khosravi-Darani

Subjects

Applied Microbiology and Biotechnology, Biotechnology

Published

2022

17. Potential application of probiotics in mycotoxicosis reduction in mammals and poultry

Author

Alaleh Zoghi, Svetoslav Dimitrov Todorov, and Kianoush Khosravi-Darani

Subjects

Toxicology

Published

2022

18. An overview of biotechnological production of propionic acid: From upstream to downstream processes

Author

Negin Ahmadi, Kianoush Khosravi-Darani, and Amir Mohammad Mortazavian

Subjects

Bioproduction, Biosynthesis, Carbon sources, Food biotechnology, Industrial applications, Process variables, Propionibacterium, Recovery, Short-chain fatty acid, Vitamin B12 production, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Abstract

The increasing demand for propionic acid (PA) production and its wide applications in several industries, especially the food industry (as a preservative and satiety inducer), have led to studies on the low-cost biosynthesis of this acid. This paper gives an overview of the biotechnological aspects of PA production and introduces Propionibacterium as the most popular organism for PA production. Moreover, all process variables influencing the production yield, different simple and complex carbon sources, the metabolic pathway of production, engineered mutants with increased productivity, and modified tolerance against high concentrations of acid have been described. Furthermore, possible methods of extraction and analysis of this organic acid, several applied bioreactors, and different culture systems and substrates are introduced. It can be concluded that maximum biomass and PA production may be achieved using metabolically engineered microorganisms and analyzing the most significant factors influencing yield. To date, the maximum reported yield for PA production is 0.973 g·g-1, obtained from Propionibacterium acidipropionici in a three-electrode amperometric culture system in medium containing 0.4 mM cobalt sepulchrate. In addition, the best promising substrate for PA bioproduction may be achieved using glycerol as a carbon source in an extractive continuous fermentation. Simultaneous production of PA and vitamin B12 is suggested, and finally, the limitations of and strategies for competitive microbial production with respect to chemical process from an economical point of view are proposed and presented. Finally, some future trends for bioproduction of PA are suggested.

Published

2017

19. Seed Oil Wastes: Potent Substrates for the Production of Aquafeed Meal

Author

Kianoush Khosravi-Darani and Fataneh Hashempour-Baltork

Subjects

Nutrition and Dietetics, Public Health, Environmental and Occupational Health, Food Science

Published

2022

20. Effect of Pretreatments on bioremoval of metals and subsequent exposure to simulated gastrointestinal conditions

Author

Alaleh Zoghi, Mahla Salimi, Razieh Sadat Mirmahdi, Ramona Massoud, Kianoush Khosravi-Darani, Reza Mohammadi, Milad Rouhi, and Abhishek Dutt Tripathy

Subjects

Agronomy and Crop Science, Food Science

Abstract

Water contamination with heavy metals is increased due to environmental contaminants. Arsenic, cadmium, mercury, and lead are well-known toxic heavy metals for humans. Lactobacillus acidophilus is an ideal absorbent for the removal of metals from drinking water. In this study, the ability of treated and untreated L. acidophilus ATCC 4356 to remove four heavy metals, simultaneously, from multi-metallic contaminated water in 24 h was investigated. In addition, the stability of the bacteria–metal complexes was evaluated in simulated gastrointestinal tract conditions. According to the results, untreated L. acidophilus could remove 99.01% and 92.35% of mercury and lead in water, respectively (initial concentration of 700 µg.L−1; inoculum size of 2.6×1012 CFU.mL−1; pH 4; 37°C; 24 h), whereas removal of arsenic and cadmium, under the same conditions, was 91.28% and 61.91% by heat and NaOH treated cells, respectively. In the digest condition, the complexes of bacteria-metal were reversible and the bond stability of untreated bacteria–Hg complexes was stronger than other complexes. The results suggest that treated or untreated L. acidophilus ATCC 4356 cells have the potential to adsorb heavy metals in contaminated water.

Published

2022

21. Total and Partial Replacement of Meat by Mycoprotein in Hamburger: Physico-Chemical, Nutritional, Mechanical and Overall Acceptability

Author

Hedayat Hosseini, Kianoush Khosravi-Darani, Fataneh Hahempour-Baltork, Parastou Farshi, Behrooz Jannat, Manouchehr Dadgarnejad, and Ramin Asgharian

Subjects

Nutrition and Dietetics, Public Health, Environmental and Occupational Health, Food Science

Abstract

Aim: Processed meats are considered the most consumable products worldwide. However, there are several limitations related to these products such as health and environmental issues, and the high energy, time, and cost needed for their production, thus manufacturers are looking for effective alternatives for processed meats. Mycoprotein can be a useful approach for meat substitution. Introduction: This study’s objective was the partial and total replacement of meat with mycoproteins in the formulation of burgers and to investigate the characteristics of these novel formulations for comparison with the control sample (full meat burger). Methods: Cooking loss, mechanical, physicochemical, nutritional, color, and sensory properties were determined method: Cooking loss, mechanical, physicochemical, nutritional, color and sensory properties were determined. Results: The results indicated that mycoprotein substitution could improve health and nutritional properties as a result of including high-value protein and lower lipid content (mostly unsaturated fatty acids). However, the beef burger had better mechanical properties such as cohesiveness, hardness, springiness, and gumminess compared to mycoprotein-containing burgers. Higher OBC (oil binding capacity) and WBC (water binding capacity) of mycoprotein were responsible for filling the interstitial spaces within the protein matrix and reducing the textural attributes. Thus, using less oil and water in mycoprotein-containing formulations is recommended. Moreover, the cooking loss percentage decreased by increasing the mycoprotein content of burgers, which has economic advantages. According to sensory evaluations, no significant changes (p>0.05) were shown in the overall acceptance and taste scores of the burgers. Conclusions: Mycoproteins are potential compounds to be used as promising ingredients for the complete substitution of meat in the burger. other: noting else

Published

2023

22. Mycoprotein as chicken meat substitute in nugget formulation: Physicochemical and sensorial characterization

Author

Fataneh Hashempour‐Baltork, Behrooz Jannat, Manouchehr Dadgarnejad, Adel Mirza Alizadeh, Kianoush Khosravi‐Darani, and Hedayat Hosseini

Subjects

Food Science

Published

2023

23. Development of a New Modelling Approach and Performance Evaluation of Meta-heuristic Optimization Algorithms for the Prediction of Kinetic Growth Parameters for Pseudomonas spp. in Fish

Author

Fatih Tarlak, Ozgun Yucel, and Kianoush Khosravi-Darani

Subjects

Applied Microbiology and Biotechnology, Microbiology, Biotechnology

Abstract

The main aim of the current work was to build up a new mathematical modelling approach in predictive food microbiology field for the prediction of growth kinetics of microorganisms. For this purpose, the bacterial growth data of Pseudomonas spp. in whole fish (gilt-head seabream) subjected to isothermal and non-isothermal storage temperatures were collected from previously published growth curves. Maximum specific growth rate (1/h) and lag phase duration (h) were described as a function of storage temperature using the direct two-step, direct one-step and inverse dynamic modelling approaches based on various meta-heuristic optimization algorithms. The fitting capability of the modelling approaches and employed optimization algorithms was separately compared, and the one-step modelling approach for the direct methods and the Bayesian optimization method for the used algorithms provided the best goodness of fit results. These two were then further processed in validation step. The inverse dynamic modelling approach based on the Bayesian optimization algorithm yielded satisfactorily statistical indexes (1.02 > Bias factor > 1.09 and 1.07 > Accuracy factor > 1.13), which indicates it can be reliably used as an alternative way of describing the growth behaviour of Pseudomonas spp. in fish in a fast and efficient manner with minimum labour effort.

Published

2022

24. Hydrothermal treatment of lignocellulose waste for the production of polyhydroxyalkanoates copolymer with potential application in food packaging

Author

Abhishek Dutt Tripathi, Pradeep Kumar Mishra, Kianoush Khosravi Darani, Aparna Agarwal, and Veena Paul

Subjects

Food Science, Biotechnology

Published

2022

25. Evaluation of physicochemical, microbiological and sensory properties of croissants fortified with Arthrospira platensis (Spirulina)

Author

Ramona Massoud, Kianoush Khosravi-Darani, Fereshteh Nakhsaz, and László Varga

Subjects

fortification, cyanobacteria, organoleptic, product shelf life, Agriculture

Abstract

The major physical, chemical, microbiological, and sensory properties of croissants enriched with Spirulina at concentrations ranging between 0.5 and 1.5% were evaluated. The results showed that the use of A. platensis biomass for the production of croissants improved the textural and organoleptic properties of the final products. Spirulina fortification also increased the protein and moisture levels and water-holding capacity, whereas it decreased the crumb firmness and lightness of croissants. Optimum sensory results were obtained when Spirulina was applied at a rate of 1%. Besides these benefits, the A. platensis biomass enhanced the levels of biologically active substances (i.e. essential amino acids, chlorophyll, phycocyanin, carotenoids, minerals, vitamins, and essential fatty acids) in croissant samples. To our knowledge, this is the first scientific study on Spirulina-fortified croissants.

Published

2016

26. Optimization of Phospholipase A1 Immobilization on Plasma Surface Modified Chitosan Nanofibrous Mat

Author

Zahra Beig Mohammadi, Zohreh Hamidi-Esfahani, Mohammad Ali Sahari, and Kianoush Khosravi-Darani

Subjects

Chitosan nanofibers, Immobilization, Phospholipase A1, Plasma, Surface modification, Biotechnology, TP248.13-248.65

Abstract

Phospholipase A1 is known as an effective catalyst for hydrolysis of various phospholipids in enzymatic vegetable oil degumming. Immobilization is one of the most efficient strategies to improve its activity, recovery and functional properties. In this study, chitosan-co-polyethylene oxide (90:10) nanofibrous mat was successfully fabricated and modified with atmospheric plasma at different times (2, 6 and 10 min) to interact with enzyme molecules. Scanning electron microscopy images revealed that the membranes retained uniform nanofibrous and open porous structures before and after the treatment. PLA1 was successfully immobilized onto the membrane surfaces via covalent bonds with the functional groups of chitosan nanofibrous mat. Response surface methodology was used to optimize the immobilization conditions for reaching the maximum immobilization efficiency. Enzyme concentration, pH, and immobilization time were found to be significant key factors. Under optimum conditions (5.03 h, pH 5.63, and enzyme dosage 654.36 UI), the atmospheric plasma surface modified chitosan nanofibers reached the highest immobilization efficiency (78.50%). Fourier transform infrared spectroscopy of the control and plasma surface-modified chitosan nanofibers revealed the functional groups of nanofibers and their reaction with the enzyme. The results indicated that surface modification by atmospheric plasma induced an increase in PLA1 loading on the membrane surfaces.

Published

2016

27. The Effect of Plant Metabolites on Coronaviruses: A Comprehensive Review Focusing on their IC50 Values and Molecular Docking Scores

Author

Kianoush Khosravi-Darani, Eda Ceren Kaya, Parastou Farshi, and Fataneh Hashempour-Baltork

Subjects

Pharmacology, Proteases, Primary metabolite, General Medicine, Biology, medicine.disease, Virus, Terpenoid, chemistry.chemical_compound, chemistry, Biochemistry, Polyphenol, Drug Discovery, medicine, Middle East respiratory syndrome, Nicotianamine, IC50

Abstract

Coronaviruses have caused worldwide outbreaks in different periods. SARS (severe acute respiratory syndrome) was the first emerged virus from this family, followed by MERS (Middle East respiratory syndrome) and SARS-CoV-2 (2019-nCoV or COVID 19), which is newly emerged. Many studies have been conducted on the application of chemical and natural drugs for treating these coronaviruses and they are mostly focused on inhibiting the proteases of viruses or blocking their protein receptors through binding to amino acid residues. Among many substances which are introduced to have an inhibitory effect against coronaviruses through the mentioned pathways, natural components are of specific interest. Secondary and primary metabolites from plants, are considered as potential drugs to have an inhibitory effect on coronaviruses. IC50 value (the concentration in which there is 50% loss in enzyme activity), molecular docking score and binding energy are parameters to understand the ability of metabolites to inhibit the specific virus. In this study we reviewed 154 papers on the effect of plant metabolites on different coronaviruses and data of their IC50 values, molecular docking scores and inhibition percentages are collected in tables. Secondary plant metabolites such as polyphenol, alkaloids, terpenoids, organosulfur compounds, saponins and saikosaponins, lectins, essential oil, and nicotianamine, and primary metabolites such as vitamins are included in this study.

Published

2022

28. Prediction of growth kinetics of Bacillus tequilensis in nutrient broth under isothermal and non-isothermal conditions

Author

Giti EMTIAZI, Fatemeh Sadat GHOREISHI, Kianoush Khosravi DARANI, Özgün YÜCEL, and Fatih TARLAK

Subjects

Bacillus tequilensis, predictive microbiology, growth kinetic, microbiological quality, dynamic condition, Food Science, Biotechnology

Abstract

The main objective of the present study was to develop and validate a new alternative modelling method to predict Bacillus tequilensis count in nutrient broth under iso-thermal and non-isothermal conditions. The bacterial growth data of Bacillus tequilensis was obtained experimentally in aerobically-kept nutrient broth medium and described with two-step and one-step modelling approaches by different primary models (the modified Gompertz, logistic, Baranyi and Huang models) under isothermal temperatures. Temperature-dependent kinetic parameter (maximum specific growth rate ‘µmax’) was described as a function of temperature via the Ratkowsky model integrated with each primary model. The Huang model based on the one-step modelling approach yielded the best fitting results (RMSE = 0.143 and adjusted-R2 = 0.977) for all isothermal conditions. Therefore, the Huang model was also used to check it’s prediction capability under non-isothermal conditions. The differential form of the Huang model provided satisfactorily statistical indexes (Bf = 1.07 and Af = 1.08) indicating reliably being able to use to describe the growth behaviour of Bacillus tequilensis in broth subjected to non-isothermal conditions.

Published

2023

29. Author response for 'The effect of antioxidant properties of free and encapsulated rosemary extract in liposome on the oxidation process of canola oil'

Author

null Shima Jahanfar, null Mehrdad Gahavami, null Kianoush Khosravi‐Darani, null Mahshid Jahadi, null Hareem Mohsin, null Svetoslav Dimitrov Todorov, and null Abhishek Dutt Tripathid

Published

2023

30. Impact of microgravity on virulence, antibiotic resistance, and gene expression in beneficial and pathogenic microorganisms

Author

Kianoush Khosravi-Darani, Maryam Salavatifar, Seyedeh Meysameh Ahmadi, Svetoslav Dimitrov Todorov, and Abhishek Tripathy

Subjects

Pharmacology, Drug Discovery, General Medicine

Abstract

Abstract: During space missions, the impact of the space conditions (both microgravity and radiation) on phys-iologic and metabolic aspects of the microbiota of astronauts' bodies should be considered. Changes depend on the mission's duration, types of organisms, and ecology. Reported alterations are related to changes in morphology, growth, gene expression, and physiology of cells, resulting in increased virulence, acid, antibiotic resistance, biofilm formation, secondary metabolism, and microbial muta-tions. Accordingly, recent research indicates the impacts of simulated microgravity on human physi-ology and bacterial characteristics. This paper has reviewed the aspects of microgravity on changes in microbiota, including virulence, antibiotic resistance, and gene expression. Microgravity can under-mine humans and makes influence bacterial pathogenicity. The review of papers shows that some mi-croorganisms showed higher pathogenicity under microgravity conditions. Moreover, sulfamethoxa-zole had the highest resistance among Gram-positive microorganisms, and gentamicin had the highest resistance in Gram-negative bacteria. All antibiotics reviewed under microgravity conditions were robust in both groups of microorganisms compared to the gravity condition. Furthermore, some gene expression was altered in bacteria under microgravity conditions compared to Earth conditions (standard bacterial growth conditions). Changes in microbial behavior under microgravity directly influence astronauts' health conditions, and a detailed analysis of known facts can provide essential information for the selection of appropriate probiotics for these specific cases during the missions and after the recovery processes. Moreover, the study of microorganisms changes in the absence of grav-ity will help to understand the mechanisms of causing diseases on Earth and may be applied in clini-cal practice.

Published

2023

31. Replacement of meat by mycoproteins in cooked sausages: Effects on oxidative stability, texture, and color

Author

Narges Shahbazpour, Kianoush Khosravi-Darani, Anousheh Sharifan, and Hedayat Hosseini

Subjects

food and beverages, Food Science

Abstract

Processed meat is one of the most consumed products worldwide. Naturally, production of proteins with animal origins includes limitations such as costs, energy, time, and environmental problems. Thus, replacement of meats by alternative biomaterials such as mycoproteins can be promising. Mycoproteins with hyphal morphologies, including branches and lengths, have close structures to meat and can be a potential alternative for meat products. Therefore, the major objectives of this study included complete replacement of sausage meats by mycoproteins and comparing characteristics of the novel formula with those of meat. In general, physicochemical, microbial, nutritional, and mechanical characteristics of the formulas were assessed. Results showed that the mycoprotein substitution improved the nutritional and health effects due to the higher valuable protein and lower lipid contents. Besides, it had a high content of essential amino acid and unsaturated fatty acid, compared to meat sausage. Absence of yeasts, molds, Salmonella spp., Eshrichia (E.)coli, and Staphiloccocus (S.)aureus verified the effectiveness of the heat treatment and also the effectiveness of the hygienic procedures in both samples. With regard to phycicochemical properties, more contents of moisture and lipids in sausages containing mycoprotein were linked to further water binding capacity (WBC) (P < 0.05) and oil binding capacity (OBC) in them, compared to beef samples. Besides, the mycoprotein sample had lower (P < 0.05) values of carbohydrates, ash, and pH, compared to the beef sample. In contrast, beef sausages had better textural characteristics, such as hardness, cohesiveness, gumminess, and springiness indexes, compared to mycoprotein sausages. Higher water and OBC values of the mycoproteins led to the filling of the protein interstitial spaces as well as decreasing of the textural attributes. Thus, it resulted in the use of less oil and water in mycoprotein formulations. In conclusion, mycoproteins can be addressed as appropriate replacements for meats in sausages.

Published

2021

32. A review on pectin extraction methods using lignocellulosic wastes

Author

Alaleh Zoghi, Sahar Vedadi, Zohreh Hamidi Esfahani, Hasan Ahmadi Gavlighi, and Kianoush Khosravi-Darani

Subjects

Renewable Energy, Sustainability and the Environment

Published

2021

33. Package for the authors Winter

Author

Kianoush Khosravi-Darani

Subjects

package for winter, TP248.13-248.65, Biotechnology

Abstract

Package of the Winter, 9(1); 2022 LIST OF PAPERS Review Article ----- Original Article

Published

2021

34. Propionic Acid Bio-Fortification of Yogurts by Adjunct Culture of Propionibacterium freudenreichii

Author

Omid Zahed, Ramona Massoud, Kianoush Khosravi-Darani, Amir Mohammad Mortazavian, and Abdorreza Mohammadi

Subjects

yogurt, propionic acid, propionibacterium freudenreichii, food and beverages, probiotic, TP248.13-248.65, Biotechnology

Abstract

Background and Objective: Propionic acid bacteria are useful microorganisms that can produce beneficial food compounds. These bacteria mainly produce propionic acid that decrease the microbial population and growth along with increasing the shelf life. Propionibacterium freudenreichii was applied to produce propionic acid in yogurt in this study. Material and Methods: First, the process variables like inoculum percentage, strain type, milk fat and inulin amount, fermentation temperature, sunflower oil quantity, and refrigerated duration on propionic acid production by Propionibacterium freudenreichii was evaluated using Plackett-Burman design as a screening method. Next the acid production was optimized by a central composite design with 3 major factors of seed size, concentration of inulin, and refrigerated storage. Results and Conclusion: Analysis of variance showed that the models have been significant (p≤0.05). They represented that propionic acid production was influenced by three main factors. Optimized propionic acid production in yogurts by Propionibacterium freudenreichii ssp. shermanii (108 CFU. ml-1) was observed in 21 days after of refrigeration of skim-milk 2% (w v-1), inulin (3% w v-1) and incubation temperature of 43 °C. Reconfirmation test showed that the highest produced propionic acid was 12.53 ± 0.24 mg l-1 in yogurt, which increased production up to 6.2 time. Results showed that Propionibacterium freudenreichii ssp. shermanii increases propionic acid contents in synbiotic yogurts containing inulin.

Published

2021

35. Effect of Protease-loaded Nanoliposome Produced by Heating Method on Yield and Composition of Whey and Curd during the Production of Iranian Brined Cheese

Author

Mahshid Jahadi, Kianoush Khosravi-Darani, Mohammad-Reza Ehsani, Aliakbar Saboury, Alaleh Zoghi, Kourosh Egbaltab, Rooh alla Ferdwosi, and Mohammad-Reza Mozafari

Subjects

Flavourzyme, Nanoliposome, Iranian brined cheese, Heating method, Nutrition. Foods and food supply, TX341-641

Abstract

Background and Objectives: Fast proteolysis of cheese in ripening process may lead to the premature attack of casein, release of the majority of enzymes into the whey, and loss of cheese composition from curd to whey. In this study, the effect of liposomal Flavourzyme on proteolysis of Iranian white brined cheese, as well as on the yield and composition of whey and curd was investigated. Materials and Methods: Heating method (without using any toxic, volatile organic solvent or detergent) was used to nanoliposomal encapsulation of Flavourzyme. So, 0.15% and 0.3% (w/v) Flavourzyme-loaded liposome were incorporated to pasteurized cow milk. Iranian brined cheese was produced in triplicate using a complete randomized design. Then total solids were determined by drying them in an Infrared Oven. Water soluble nitrogen/total nitrogen and non-protein nitrogen/total nitrogen was determined by Kjeldahl method. Results: Encapsulation efficiency of liposomal Flavourzyme was 25%. No significant differences between chemical components of cheese curd (total solid, protein, TCA-soluble nitrogen, water soluble nitrogen) and whey (total solid, protein) were observed between encapsulated cheese and the control. Cheese production yield in experimental cheese was not different from that in the control cheese (P>0.05). Conclusions: The results suggest that application of liposomal Flavourzyme for acceleration of Iranian white brined cheese inhibits premature attack of casein and the release of the majority of cheese compositions into the whey. Keywords: Flavourzyme, Nanoliposome, Iranian brined cheese, Heating method

Published

2015

36. Valorization of date waste using microbial fermentations

Author

Nasim Khorshidian, Mojtaba Yousefi, and Kianoush Khosravi-Darani

Subjects

Renewable Energy, Sustainability and the Environment

Published

2022

37. Beneficial features of pediococcus: from starter cultures and inhibitory activities to probiotic benefits

Author

Svetoslav Dimitrov, Todorov, Clarizza May, Dioso, Min-Tze, Liong, Luis Augusto, Nero, Kianoush, Khosravi-Darani, and Iskra Vitanova, Ivanova

Subjects

Pediocins, Physiology, Probiotics, General Medicine, Applied Microbiology and Biotechnology, Anti-Bacterial Agents, Bacteriocins, Lactobacillales, Fermentation, Food Microbiology, Animals, Humans, Pediococcus, Biotechnology

Abstract

Pediococci are lactic acid bacteria (LAB) which have been used for centuries in the production of traditional fermented foods. There fermentative abilities were explored by the modern food processing industry in use of pediococci as starter cultures, enabling the production of fermented foods with distinct characteristics. Furthermore, some pediococci strains can produce bacteriocins and other antimicrobial metabolites (AMM), such as pediocins, which are increasingly being explored as bio-preservatives in various food matrices. Due to their versatility and inhibitory spectrum, pediococci bacteriocins and AMM are being extensively researched not only in the food industry, but also in veterinary and human medicine. Some of the pediococci were evaluated as potential probiotics with different beneficial areas of application associated with human and other animals' health. The main taxonomic characteristics of pediococci species are presented here, as well as and their potential roles and applications as starter cultures, as bio-preservatives and as probiotic candidates.

Published

2022

38. The Effect of Probiotics on Various Diseases and their Therapeutic Role: An Update Review

Author

Amankeldy Sadanov, Fataneh Hashempour-Baltork, Abhishek Dutt Tripathi, Mahdieh Sheikh, Sevda Eskandarzadeh, Fatih Tarlak, and Kianoush Khosravi-Darani

Subjects

disease, business.industry, atopic eczema syndrome, Medicine, urinary tract infections, fibrocystic, business, Applied Microbiology and Biotechnology, acne, Microbiology, probiotic, QR1-502, Biotechnology

Abstract

Probiotic bacteria play a critical and functional role in clinical and nutritional applications. In the present study, the ability of various probiotics and their metabolites in the prevention and treatment of different diseases, infections and disorders was reviewed. The issues that were noticed are included: Fibrocystic, diabetes, acne, colon cancer, cardiovascular, urinary tract infections, atopic eczema syndrome, food allergies and obesity. Enhancement in using drug treatment has led to the appearance of drug-resistance concern, thus probiotics can be a suitable choice. This review focuses on the effect of probiotic bacteria and their metabolites on immune-boosting, prevention and treatment of these diseases. For this purpose, after a short glance at each disease, infection and disorder, the mechanism of probiotic action and recent studies about that disease are reviewed. It could be recommended that probiotics consumption, perhaps from birth to all stages of life, would be effective in the life-long, development of health effects and disease treatments.

Published

2021

39. All Aspects of Antioxidant Properties of Kombucha Drink

Author

Kianoush Khosravi-darani

Subjects

food and beverages, Molecular Medicine, Molecular Biology, Biochemistry, Biotechnology

Abstract

Nowadays people chose their food and drinks carefully as they are aware of the role of their diet in staying healthy. Human beings are looking for safe, healthy food to get the essential nutrients and have health effects simultaneously. Kombucha, a unique drink, is claimed to have various beneficial effects, and the antioxidant activity is one of the most important ones. Kombucha is mainly based on black and green tea and sugar, but meanwhile, it has been produced by many additional raw materials such as fruit peels, rice, wheat, barley, and honey to add nutritional value and consumer acceptance. This review paper describes the fermentation, biochemistry, and microbiology of kombucha, and also the chemical composition of kombucha was explained along with the main factors affecting the properties of kombucha. This study reviews all aspects of kombucha's antioxidant properties and mentioned the main factors affecting its antioxidant activity.

Published

2021

40. Biodecontamination of milk and dairy products by probiotics: Boon for bane

Author

Razieh Sadat Mirmahdi, Alaleh Zoghi, Fatemeh Mohammadi, Kianoush Khosravi-Darani, Shima Jazaiery, Reza Mohammadi, and Yasir Rehman

Subjects

food and beverages, Food Science

Abstract

In recent decades, “contamination of the environment, food, and feed by different contaminants such as heavy metals and toxins is increasing due to industrial life.” Commercial milk and milk products can be contaminated with heavy metals and mycotoxins. Biosorption is a low-cost method and has good potential for decontamination. In dairy products, “various starters, especially probiotics, can be used as biosorbants, while microorganisms are able to bind to heavy metals and toxins and decrease their bioavailability and hazards in the human body.” In this article, the key role of dairy starters and probiotics in the decontamination of toxins and heavy metals, and the best probiotics for decontamination of aflatoxins and heavy metals has been reviewed. After a quick glance at introducing dairy products and the main risks in association with the intake of some hazardous materials from dairy products, the application of biological systems is mentioned. Then, the article is focused on the role of beneficial microorganisms as the last chance to decrease the risk of exposure to toxins and heavy metals in dairy products. This review can be helpful for biotechnologists and scientists who have challenges about the existence of heavy metals and toxins in milk and dairy products, and help them to find the best method to decrease the content of the usual contaminants.

Published

2021

41. Probiotic Oxalate-Degrading Bacteria: New Insight of Environmental Variables and Expression of The Oxc and Frc Genes on Oxalate Degradation Activity

Author

Dina Karamad, Kianoush Khosravi-Darani, Amin Mousavi Khaneghah, and Aaron W. Miller

Subjects

Health (social science), agricultural_sciences_agronomy, Plant Science, Health Professions (miscellaneous), Microbiology, Food Science

Abstract

Oxalate, a compound produced by many edible plants and as a terminal metabolite in the liver of mammals, is a toxin that has a detrimental role to human health. Humans and other mam-mals do produce the enzymatic machinery to degrade oxalate. However, numerous oxa-late-degrading bacteria reside in the mammalian gut and thus provide an important function for hosts. The current review focuses on the environmental factors that influence the efficacy of pro-biotic oxalate-degrading bacteria, relative to oxalate metabolism. We describe the mechanism of oxalate catabolism and its consumption by obligate and facultative anaerobic oxalate-degrading bacteria, in both in vitro and in vivo environments. We also explore the environmental variables that impact oxalate degradation. Studies on single species degrade oxalate have not shown a strong impact on oxalate metabolism especially in high oxalate conditions such as consumption of foods high in oxalate (such as coffee and chocolate for humans or halogeton in animal feed). Considering effective variables which enhance oxalate degradation could be used in application of effective probiotic as a therapeutic tool in individuals with hyperoxaluria. This study indicates probiotics can be considered a good source of naturally occurring oxalate degrading agent in human colon

Published

2022

42. Effect of Storage in the Fortified Probiotic Corn Flakes Prepared by L. plantarum and L. reuteri

Author

Mehrnaz Dadgar, Kianoush Khosravi-Darani, Azadeh Tofighi, and Mina Khanbeigi-Dogahe

Subjects

Corn flakes. Probiotic. Prebiotic. Plackett-Burman design, Nutrition. Foods and food supply, TX341-641

Abstract

Background and Objectives: Nowadays corn flakes are the most common form of breakfast cereals; however, their vitamins are declined during the baking process. In this research, production of fortified corn flakes by Lactobacillus plantarum and L. reuteri, as well as incorporation of oat and malt fiber as prebiotics have been studied. Materials and Methods: Plackett-Burman statistical design was used to evaluate the impact of eleven-process variables on the viability of both probiotics. Results: The highest survival rate of L. plantarum (340 ×106 CFU.g-1) was obtained by 2.5% w/w inoculation of a 24 h inoculum in a medium containing 10% w/v oat extract to enrich corn flakes (10% w/w malt fiber), packed in aluminum foil and kept at 20 °C in anaerobic conditions for 2 weeks. Also the highest survival rate of L. reuteri (123 ×106 CFU.g-1) was achieved when the 48 h cultured bacteria grown in a medium containing 5% w/v malt extract and MRS broth was inoculated (2.5% w/w) to the flakes enriched by 20% w/w malt fiber, and kept in anaerobic conditions inside the polypropylene cover packaging at 20 °C for 2 weeks. Conclusions: Sensory evaluation showed no significant difference between the treatments in terms of taste, odor and overall acceptability as compared to the control. Keywords: Corn flakes, Probiotic, Prebiotic, Plackett-Burman design

Published

2014

43. Polyhydroxybutyrate Production from Natural Gas in A Bubble Column Bioreactor: Simulation Using COMSOL

Author

Mohsen Moradi, Hamid Rashedi, Soheil Rezazadeh Mofradnia, Kianoush Khosravi-Darani, Reihaneh Ashouri, and Fatemeh Yazdian

Subjects

bubble column bioreactor, COMSOL, microorganism, PHB, simulation, Technology, Biology (General), QH301-705.5

Abstract

In this study, the simulation of microorganism ability for the production of poly-β-hydroxybutyrate (PHB) from natural gas (as a carbon source) was carried out. Based on the Taguchi algorithm, the optimum situations for PHB production from natural gas in the columnar bubble reactor with 30 cm length and 1.5 cm diameter at a temperature of 32 °C was evaluated. So, the volume ratio of air to methane of 50:50 was calculated. The simulation was carried out by COMSOL software with two-dimensional symmetric mode. Mass transfer, momentum, density-time, and density-place were investigated. The maximum production of biomass concentration reached was 1.63 g/L, which shows a 10% difference in contrast to the number of experimental results. Furthermore, the consequence of inlet gas rate on concentration and gas hold up was investigated Andres the simulation results were confirmed to experimental results with less than 20% error.

Published

2019

44. The effect of edible probiotic coating on quality of fresh fruits and vegetables: fresh strawberries as a case study

Author

Ramona Massoud, Kianoush Khosravi-Darani, Zohreh Hamidi-Esfahani, and Diako Khodaeii

Subjects

Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, media_common.quotation_subject, 02 engineering and technology, 010501 environmental sciences, Biology, engineering.material, Shelf life, 01 natural sciences, law.invention, Probiotic, Coating, law, Fruits and vegetables, 0202 electrical engineering, electronic engineering, information engineering, Food processing, engineering, Digestive tract, Quality (business), Food science, Beneficial organism, business, 0105 earth and related environmental sciences, media_common

Abstract

Probiotics are beneficial microorganisms and play a health-promoting role in the human body. It is necessary to maintain the viability and have the metabolic activity during the food processing, the whole way to the customer’s table and also within the digestive tract. Covering these microorganisms is an important strategy, but the issue of their release at the right time and place has not yet been fully discovered. In the case of using edible films or food coatings, there is no problem of releasing, because the film or coating is consumed with the food. On the other hand, these coatings help increasing the shelf life of delicate foods such as fresh fruits (strawberry) and vegetables. In this review study, first we discuss the strawberry issue and common methods of increasing its shelf life, and then we deal with the issue of using edible films and food coatings as a two-way strategy to increase the shelf life of fresh fruits and vegetables and also probiotic coatings. In the following, the effect of direct addition of probiotics on the quality of fruits and vegetables is studied, and then the effect of probiotics films and edible coatings on fruits and vegetables are reviewed for the first time. Some of these coatings are also known as prebiotics and can be considered from different dimensions. At the end, some questions about using of probiotic in edible coatings are listed to be considered in further researches.

Published

2021

45. Bacterial conjugated linoleic acid bio-fortification of synbiotic yogurts using Propionibacterium freudenreichii as adjunct culture

Author

Omid Zahed, Kianoush Khosravi-Darani, S. Amir Mortazavian Farsani, and Abdoreza Mohammadi

Subjects

food.ingredient, integumentary system, Central composite design, biology, Propionibacterium freudenreichii, Sunflower oil, Prebiotic, medicine.medical_treatment, Conjugated linoleic acid, Inulin, food and beverages, biology.organism_classification, chemistry.chemical_compound, food, chemistry, medicine, Bio fortification, lipids (amino acids, peptides, and proteins), Fermentation, Food science, Food Science

Abstract

In this study, Propionibacterium freudenreichii was used for in situ production of conjugated linoleic acid (CLA) in yogurt. Firstly, effects of process variables, including strain type, percentage of milk fat, percentage of inoculum, quantity of sunflower oil, concentration of inulin, temperature of fermentation and time of storage at 4°C, on production of CLA by Propionibacterium freudenreichii were investigated using screening method of the Plackett–Burman design. Then optimisation of CLA production process was conducted using three major factors of milk fat percentage, inulin concentration and storage time at 4°C using central composite design. Analysis of variance established that the models were highly significant (P ? 0.05). The model demonstrated that the production of CLA was affected by these three factors. Optimised CLA production by Propionibacterium freudenreichii ssp. shermanii in yogurts was achieved after 17 days of storage at 4°C in skim-milk containing 1.75% (w/w) fat and 2.25% (w/v) inulin as prebiotic. Reconfirmation test established that at the highlighted optimum conditions, the highest concentration of produced CLA was 6.4 mg g–1 lipid in yogurt, which is a 256% increase in total CLA production, compared with control samples. Results demonstrated that Propionibacterium freudenreichii ssp. shermanii not only leads to production of synbiotic yogurts containing inulin but also increases CLA production in yogurts.

Published

2021

46. Detection of Microorganisms Using Graphene-Based Nanobiosensors

Author

Kianoush Khosravi-Darani, Sara Hojjati, Mehrab Pourmadadi, and Fatemeh Yazdian

Subjects

graphene quantum dots, Materials science, Graphene, General Chemical Engineering, Microorganism, graphene, technology, industry, and agriculture, Nanotechnology, macromolecular substances, TP368-456, reduced graphene oxide, microorganism detection, Food processing and manufacture, Industrial and Manufacturing Engineering, law.invention, nanobiosensors, law, graphene oxide, Minireview, TP248.13-248.65, Food Science, Biotechnology

Abstract

Having an insight into graphene and graphene derivatives such as graphene oxide, reduced graphene oxide and graphene quantum dots is necessary since it can help scientists to detect possible properties and features that could be useful when using these carbon materials in preparation of a nanocomposites. In recent years, graphene and its derivatives have attracted a lot of attention and been extensively applied in biosensors due to fascinating properties, such as large surface area, optical and magnetic properties, and high elasticity for the detection of microorganisms as they can be modified with some other materials such as macromolecules, oxide metals and metals to improve the electrochemical behaviour of the biosensor. In this review paper, biosensor design strategies based on graphene and its derivatives (graphene-based nanocomposites in biosensors) are described. Then their application for the detection of microorganisms including prions, viroids, viral and bacterial cells as well as fungi, protozoa, microbial toxins and even microbial sources of antibiotics is reviewed.

Published

2021

47. Comparison of long chain polyunsaturated fatty acid content in human milk in preterm and term deliveries and its correlation with mothers′ diet

Author

Ramin Iranpour, Roya Kelishadi, Sharareh Babaie, Kianoush Khosravi-Darani, and Sanam Farajian

Subjects

Human milk, polyunsaturated fatty acids, premature neonate, Medicine

Abstract

Background: Human milk (HM) is the main food for infants, and phospholipids, especially long chain polyunsaturated fatty acids (LCPUFAs), play an essential role in the growth and brain development. This study was designed to evaluate the fatty acid composition in HM of mothers with preterm and full-term newborns and to determine the relationships of dietary intake of docosahexaenoic acid (DHA) and arachidonic acid (AA) of mothers and the content of these fatty acids in their milks. Materials and Methods: The AA and DHA of HM were determined by gas chromatography at the 3 rd day after birth from mothers of 59 term and 58 preterm infants. Mothers were selected from those who delivered in Shahid Beheshti Hospital, a referral teaching hospital affiliated to Isfahan University of Medical Sciences, Isfahan, Iran. Dietary fat composition of mothers was examined by a food-frequency questionnaire. Total fat content, and DHA and AA levels of HM were compared in both groups. The correlation of dietary DHA and AA with DHA and AA of HM was determined in both groups. Results: We found that maternal age, body mass index (BMI), and self-reported food-frequency questionnaire did not differ in the two groups. The mean AA (0.19 ± 0.10 mg/ml and 0.16 ± 0.09 mg/ml, respectively), DHA (0.10 ± 0.06 mg/ml and 0.08 ± 0.05 mg/ml, respectively), and total fat content (2.58 ± 2.16 g/dl and 2.06 ± 1.22 g/dl, respectively) of HM of mothers with preterm neonates were non-significantly higher than in mothers with term neonates. The percentage of DHA in the HM fat of preterm and term groups (0.45 ± 0.16% and 0.45 ± 0.18%, respectively) and the percentage of AA (0.85 ± 0.26% and 0.84 ± 0.20%, respectively) were comparable with worldwide standards. No correlations were documented between DHA and AA intake and DHA and AA content of HM in both groups. Conclusion: Although DHA and AA content of HM in preterm group was higher than in term group, this difference were not significant. In Isfahan, the percentage of DHA and AA was acceptable in the milk fat of mothers with term and preterm neonates.

Published

2013

48. Inhibition of Clostridium (C.) botulinum and its toxins by probiotic bacteria and their metabolites: An update review

Author

Maryam Azizi-Lalabad, Mahmood Alizadeh-Sani, Fataneh Hashempour-Baltork, Kianoush Khosravi-Darani, Mohammad Maleki, and Adel Mirza Alizadeh

Subjects

01 natural sciences, Microbiology, law.invention, Probiotic, chemistry.chemical_compound, 0404 agricultural biotechnology, Clostridium, Bacteriocin, law, medicine, Botulism, Pathogen, Nisin, biology, business.industry, 010401 analytical chemistry, 04 agricultural and veterinary sciences, medicine.disease, biology.organism_classification, Food safety, 040401 food science, 0104 chemical sciences, chemistry, business, Agronomy and Crop Science, Bacteria, Food Science

Abstract

Clostridium (C.) botulinum is the causative agent of foodborne poisoning such as botulism, which includes high mortality rates in animals and humans. Probiotic bacteria play critically functional roles in food matrices, as well as agricultural, clinical and nutritional fields. In this review, potentials of various probiotic bacteria and their metabolites to prevent C. botulinum toxicity are reviewed. For this purpose, an introduction about C. botulinum and its mechanisms of action is provided. After a short introduction of probiotic bacteria and their beneficial health effects on humans, the bacterial mechanisms of their action are reviewed. Then bacteriocin production by probiotic bacteria is described. After description of C. botulinum and its neurotoxins, effects of probiotic bacteria on C. botulinum are reviewed with a special focus on effects of the bacterial bacteriocins on this pathogen. Furthermore, physicochemical factors, which show great effects on potential of nisin to prevent growth and toxin production of the bacteria, are introduced. This study has shown that probiotic bacteria and their bacteriocins can be effective on growth, toxin formation and toxicity of C. botulinum. In conclusion, probiotic use in food safety studies can be effective in preventing or treating toxicity of C. botulinum.

Published

2020

49. DECONTAMINATION OF AFLATOXINS WITH A FOCUS ON AFLATOXIN B1 BY PROBIOTIC BACTERIA AND YEASTS: A REVIEW

Author

Adrano Gomes da Cruz, Alaleh Zoghi, Kianoush Khosravi-Darani, and Shima Jazayeri

Subjects

Preservative, Aflatoxin, Animal health, technology, industry, and agriculture, food and beverages, Human decontamination, Biology, Microbiology, biological factors, law.invention, Bioavailability, Probiotic, law, Detoxification, Probiotic bacteria, heterocyclic compounds, Food science, Molecular Biology, Food Science, Biotechnology

Abstract

Food and feed contamination by aflatoxins represents a great challenge for human and animal health. Aflatoxins detoxification using probiotic bacteria and yeasts has been introduced as an inexpensive and promising method. This article is organized with an overview of the potential application of probiotic bacteria and yeasts to eliminate, inactivate or reduce the bioavailability of aflatoxins, especially aflatoxin B1, in vitro and in vivo. Also, a fast glance to beneficial health effects and preservative properties of probiotics followed by the mechanism of binding of aflatoxins by probiotics, influence of different probiotic pretreatments, and the stability of aflatoxin-probiotic complexes are mentioned.

Published

2020

50. Mercury Biodecontamination from Milk by using L. acidophilus ATCC 4356

Author

Ramona Massoud, Kianoush Khosravi-Darani, Anousheh Sharifan, Gholam Hassan Asadi, and Mohammad Rasoul Hadiani

Subjects

0301 basic medicine, milk, mercury, Chemistry, removal, isotherm, chemistry.chemical_element, lactobacillus acidophilus, 010501 environmental sciences, 01 natural sciences, Applied Microbiology and Biotechnology, Microbiology, QR1-502, Mercury (element), 03 medical and health sciences, 030104 developmental biology, Environmental chemistry, biosorbent, 0105 earth and related environmental sciences, Biotechnology

Abstract

Food and water contaminations with heavy metals have been increasing due to the environmental pollution. Decontamination of mercury as one of the most toxic heavy metals seems necessary. The aim of this study is to use L. acidophilus ATCC 4356 to reduce the mercury amount in milk. All possible process variables (including contact time, bacterial count, mercury concentration, temperature, contact time and shaking rate) were screening by Plackett Burman design for determination of main effects. Then main effects (contact time, as well as Hg and biomass concentration) were studied in 5 levels with response surface methodology to reach maximal bioremoval efficiency. The highest decontamination efficiency (72%) was achieved in the presence of 80 μg/L of initial Hg concentration, 1 × 1012 CFU of L. acidophilus ATCC 4356 in the 4th day. Finally, the capacity of this bacterium for Mercury bioremoval was determined at different Hg initial concentrations by using the isotherm models of Langmuir and Freundlich. The results showed the higher correlation coefficient in Langmuir model so, Mercury absorptions obey Langmuir isotherm model. This study indicated that in the case of milk contamination to Hg, as reported in some countries, one of the solutions for metal decontamination could be the bioremoval by lactobacillus as natural valuable biosorbents as an environmental friendly technology.

Published

2020