Your search keyword '"Rashmi Chandra"' showing total 100 results

1. Specific sensory neurons and insulin-like peptides modulate food type-dependent oogenesis and fertilization in Caenorhabditis elegans

Author

Shashwat Mishra, Mohamed Dabaja, Asra Akhlaq, Bianca Pereira, Kelsey Marbach, Mediha Rovcanin, Rashmi Chandra, Antonio Caballero, Diana Fernandes de Abreu, QueeLim Ch'ng, and Joy Alcedo

Subjects

oogenesis, fertilization, sensory neurons, insulin signaling, bacterial food type, Medicine, Science, Biology (General), QH301-705.5

Abstract

An animal’s responses to environmental cues are critical for its reproductive program. Thus, a mechanism that allows the animal to sense and adjust to its environment should make for a more efficient reproductive physiology. Here, we demonstrate that in Caenorhabditis elegans specific sensory neurons influence onset of oogenesis through insulin signaling in response to food-derived cues. The chemosensory neurons ASJ modulate oogenesis onset through the insulin-like peptide (ILP) INS-6. In contrast, other sensory neurons, the olfactory neurons AWA, regulate food type-dependent differences in C. elegans fertilization rates, but not onset of oogenesis. AWA modulates fertilization rates at least partly in parallel to insulin receptor signaling, since the insulin receptor DAF-2 regulates fertilization independently of food type, which requires ILPs other than INS-6. Together our findings suggest that optimal reproduction requires the integration of diverse food-derived inputs through multiple neuronal signals acting on the C. elegans germline.

Published

2023

2. Comparing Different Machine Learning Techniques in Predicting Diabetes on Early Stage

Author

Shweta Yadu, Rashmi Chandra, and Vivek Kumar Sinha

Subjects

Ada boost, bagging, KNN, machine learning, predictive analysis, random forest, Engineering machinery, tools, and implements, TA213-215

Abstract

One of the diseases that is constantly spreading and is estimated to cause a significant number of deaths worldwide is diabetes mellitus. It is determined by the quantity of a blood sugar molecule made from glucose. The possibility of this disease has been predicted using a variety of methods. To forecast diabetes at an early stage, adequate and clear data on diabetic individuals are needed. In this study, 520 records from a hospital in Bangladesh with 16 different characteristic numbers were used to make predictions. At UCI, this dataset is accessible to everyone. We used Random Forest, Ada Booster, KNN, and Bagging algorithms after feature selection. Through 10-fold cross-validation, it was discovered that the Random Forest method had the best test accuracy, scoring 97.03% correctly and 95.03% correctly.

Published

2024

3. Radiological, histopathological, and immunohistochemical characterization of solitary fibrous tumor of the lacrimal sac: A rare case report

Author

Prakash Kumar, Sanjeev Kumar, Rashmi Chandra, and Rajendra Kumar

Subjects

dacryocystectomy, lacrimal sac tumor, solitary fibrous tumor, Ophthalmology, RE1-994

Abstract

Solitary fibrous tumor (SFT) is a benign spindle cell neoplasm of mesenchymal fibroblast cells. It can appear in various locations, but SFT of the lacrimal sac is rare. Due to their variable clinical, histological, and radiological presentation, it can be easily misdiagnosed. We report a rare case of SFT of the lacrimal sac with its radiological, histological, and immunochemical characterization.

Published

2021

4. Ildr1 gene deletion protects against diet-induced obesity and hyperglycemia.

Author

Rashmi Chandra, Dipendra K Aryal, Jonathan D Douros, Rafiq Shahid, Supriya J Davis, Jonathan E Campbell, Olga Ilkayeya, Phillip J White, Ramona Rodriguez, Christopher B Newgard, William C Wetsel, and Rodger A Liddle

Subjects

Medicine, Science

Abstract

ObjectiveImmunoglobulin-like Domain-Containing Receptor 1 (ILDR1) is expressed on nutrient sensing cholecystokinin-positive enteroendocrine cells of the gastrointestinal tract and it has the unique ability to induce fat-mediated CCK secretion. However, the role of ILDR1 in CCK-mediated regulation of satiety is unknown. In this study, we examined the effects of ILDR1 on food intake and metabolic activity using mice with genetically-deleted Ildr1.MethodsThe expression of ILDR1 in murine tissues and the measurement of adipocyte cell size were evaluated by light and fluorescence confocal microscopy. The effects of Ildr1 deletion on mouse metabolism were quantitated using CLAMS chambers and by targeted metabolomics assays of multiple tissues. Hormone levels were measured by ELISA. The effects of Ildr1 gene deletion on glucose and insulin levels were determined using in vivo oral glucose tolerance, meal tolerance, and insulin tolerance tests, as well as ex vivo islet perifusion.ResultsILDR1 is expressed in a wide range of tissues. Analysis of metabolic data revealed that although Ildr1-/- mice consumed more food than wild-type littermates, they gained less weight on a high fat diet and exhibited increased metabolic activity. Adipocytes in Ildr1-/- mice were significantly smaller than in wild-type mice fed either low or high fat diets. ILDR1 was expressed in both alpha and beta cells of pancreatic islets. Based on oral glucose and mixed meal tolerance tests, Ildr1-/- mice were more effective at lowering post-prandial glucose levels, had improved insulin sensitivity, and glucose-regulated insulin secretion was enhanced in mice lacking ILDR1.ConclusionIldr1 loss significantly modified metabolic activity in these mutant mice. While Ildr1 gene deletion increased high fat food intake, it reduced weight gain and improved glucose tolerance. These findings indicate that ILDR1 modulates metabolic responses to feeding in mice.

Published

2022

5. Biotransformation and degradation of 2,4,6-trinitrotoluene by microbial metabolism and their interaction

Author

Mónica Y. Serrano-González, Rashmi Chandra, Carlos Castillo-Zacarias, Felipe Robledo-Padilla, Magdalena de J. Rostro-Alanis, and Roberto Parra-Saldivar

Subjects

Military Science

Abstract

2,4,6-trinitrotoluene (TNT) and its derivatives are nitrogen-containing aromatic compounds having chemical and thermal stability at ambient temperature and pressure. TNT has high toxicity and mutagenic activity to humans, plants and animals, thus decontamination processes are necessary. Many microorganisms are capable to bioremediate TNT such as bacteria from the genera Pseudomonas, Enterobacter, Rhodococcus, Mycobacterium, Clostridium and Desulfovibrio; fungus such as Phanerochate and Stropharia species are able to perform TNT biotransformation under aerobic and anaerobic conditions. In this work we review the state of TNT biodegradation by various routes: aerobic, anaerobic, combined, fungal, enzymatic, and bio-electrochemical. Keywords: Laccases, Aerobic degradation, Anaerobic degradation, Fungal TNT degradation

Published

2018

6. An enteroendocrine cell-enteric glia connection revealed by 3D electron microscopy.

Author

Diego V Bohórquez, Leigh A Samsa, Andrew Roholt, Satish Medicetty, Rashmi Chandra, and Rodger A Liddle

Subjects

Medicine, Science

Abstract

The enteroendocrine cell is the cornerstone of gastrointestinal chemosensation. In the intestine and colon, this cell is stimulated by nutrients, tastants that elicit the perception of flavor, and bacterial by-products; and in response, the cell secretes hormones like cholecystokinin and peptide YY--both potent regulators of appetite. The development of transgenic mice with enteroendocrine cells expressing green fluorescent protein has allowed for the elucidation of the apical nutrient sensing mechanisms of the cell. However, the basal secretory aspects of the enteroendocrine cell remain largely unexplored, particularly because a complete account of the enteroendocrine cell ultrastructure does not exist. Today, the fine ultrastructure of a specific cell can be revealed in the third dimension thanks to the invention of serial block face scanning electron microscopy (SBEM). Here, we bridged confocal microscopy with SBEM to identify the enteroendocrine cell of the mouse and study its ultrastructure in the third dimension. The results demonstrated that 73.5% of the peptide-secreting vesicles in the enteroendocrine cell are contained within an axon-like basal process. We called this process a neuropod. This neuropod contains neurofilaments, which are typical structural proteins of axons. Surprisingly, the SBEM data also demonstrated that the enteroendocrine cell neuropod is escorted by enteric glia--the cells that nurture enteric neurons. We extended these structural findings into an in vitro intestinal organoid system, in which the addition of glial derived neurotrophic factors enhanced the development of neuropods in enteroendocrine cells. These findings open a new avenue of exploration in gastrointestinal chemosensation by unveiling an unforeseen physical relationship between enteric glia and enteroendocrine cells.

Published

2014

7. Critical Moments: Supporting Homeless Journeys Through Design.

Author

Rashmi Chandra and Dhaval Vyas

Published

2021

8. Astrocyte-like CEPsh glia respond to stress

Author

Evangeline Chien, Angel J. Garcia, Noelle D. L’Etoile, and Rashmi Chandra

Abstract

While astrocytes are known to be important for development and nourishment of the nervous system, the field is just beginning to explore how astrocytes respond to environmental stimuli. UsingCaenorhabditis elegansand their astrocyte-equivalent, CEPsh, we asked whether astrocyte-like glia respond to odor exposure. We found one day-old adultC. elegansdecreasehlh-17promoter (CEPsh glia marker) mediated fluorescent expression when trained with an innately attractive odor butanone. Moreover, the olfactory training paradigm itself affects phlh-17expression, but in a different way. This suggests astrocyte-like CEPsh glia can integrate environmental information to respond to changes in the environment, which enhances survival.

Published

2022

9. Axonal Nerve Ring Localization of an Insulin-like Peptide Mrna in Stress-resistant C. Elegans Larvae

Author

Rashmi Chandra, Zahabiya Husain, and Joy Alcedo

Abstract

Insulin signaling has been implicated in many physiological processes, such as development, metabolism and stress survival, thereby ensuring an animal’s homeostasis. Thus, to enable the pathway to function with high precision, its ligands can undergo multiple levels of regulation—at the transcriptional, post-transcriptional and post-translational levels. Interestingly, we now find that the endogenous mRNA transcripts of the C. elegans insulin-like peptide ins-6 also become localized to specific structures. ins-6 transcripts are present in the axonal nerve ring of the stress-resistant dauer larva. In contrast, non-dauer and post-dauer larvae have ins-6 transcripts that are localized to the somas of the ASI and ASJ sensory neurons and not to the nerve ring. The absence of other neuronal mRNAs in the dauer axonal nerve ring suggests specificity in this mRNA localization of ins-6, which has previously been shown to be important during the switch to and from dauer physiology.

Published

2022

10. Specific sensory neurons and insulin-like peptides modulate food type-dependent oogenesis and fertilization in Caenorhabditis elegans

Author

Shashwat Mishra, Kelsey Marbach, Mohamed Dabaja, Asra Akhlaq, Mediha Rovcanin, Bianca Pereira, Rashmi Chandra, Antonio Caballero, Diana Fernandes de Abreu, QueeLim Ch’ng, and Joy Alcedo

Abstract

An animal’s responses to environmental cues are critical for its reproductive program. Thus, a mechanism that allows the animal to sense and adjust to its environment should make for a more efficient reproductive physiology. Here we demonstrate that in Caenorhabditis elegans specific sensory neurons influence onset of oogenesis through insulin signaling in response to food-derived cues. The chemosensory neurons ASJ modulate oogenesis onset through the insulin-like peptide (ILP) INS-6. In contrast, other sensory neurons, the olfactory neurons AWA, regulate food type-dependent differences in C. elegans fertilization rates, but not onset of oogenesis. This AWA effect is distinct from the effects of insulin receptor signaling, where the latter regulates fertilization independently of food type and requires ILPs other than INS-6. Together our findings suggest that optimal reproduction requires the integration of diverse food-derived inputs through multiple neuronal signals acting on the C. elegans germline.

Published

2022

11. Production of polyhydroxyalkanoate (PHA) copolymer from food waste using mixed culture for carboxylate production and Pseudomonas putida for PHA synthesis

Author

Rashmi Chandra, Aranksha Thakor, Tizazu H. Mekonnen, Trevor C. Charles, and Hyung-Sool Lee

Subjects

Environmental Engineering, General Medicine, Management, Monitoring, Policy and Law, Waste Management and Disposal

Published

2023

12. Radiological, histopathological, and immunohistochemical characterization of solitary fibrous tumor of the lacrimal sac: A rare case report

Author

Rashmi Chandra, Sanjeev Kumar, Prakash Kumar, and Rajendra Kumar

Subjects

Pathology, medicine.medical_specialty, Solitary fibrous tumor, Spindle Cell Neoplasm, business.industry, fungi, food and beverages, dacryocystectomy, lacrimal sac tumor, RE1-994, medicine.disease, Lacrimal sac, Ophthalmology, medicine.anatomical_structure, Dacryocystectomy, Radiological weapon, Rare case, medicine, Immunohistochemistry, solitary fibrous tumor, business

Abstract

Solitary fibrous tumor (SFT) is a benign spindle cell neoplasm of mesenchymal fibroblast cells. It can appear in various locations, but SFT of the lacrimal sac is rare. Due to their variable clinical, histological, and radiological presentation, it can be easily misdiagnosed. We report a rare case of SFT of the lacrimal sac with its radiological, histological, and immunochemical characterization.

Published

2021

13. PSAT203 Acquired Resistance to Medical Management in a Patient with Parathyroid Crisis due to a Parathyroid Adenoma

Author

Ravi Kant, Mc Anto Antony, Mansi Joglekar, Rashmi Chandra, and Priyanshu Nain

Subjects

Endocrinology, Diabetes and Metabolism

Abstract

Introduction Parathyroid crisis is a characterized by severe hypercalcemia associated with multiple organ dysfunction. Case 90 years-old Caucasian man was hospitalized for progressive confusion over 3 days and was noted to have a critically elevated serum calcium (S Ca) 16.8 mg/dl (8.6-10.0) with albumin 4.1 mg/dl. Patient had a good functional status prior to the hospitalization. On further evaluation, patient was diagnosed with primary hyperparathyroidism with a high suspicion for parathyroid cancer, with labs showing a markedly elevated PTH 1183 pg/ml (15-65) and ionized Ca >1.85 mmol/L (1.15-1.35). Of note, S Ca was normal at 9.5 mg/dl (no albumin) approximately 20 months prior to the hospitalization. Parathyroid ultrasound showed a 1.8×1.7×1.1 cm left superior parathyroid mass with ill-defined margins. Sestamibi scan confirmed a left superior parathyroid mass. CT neck/chest/abdomen/pelvis with contrast showed a 1.8×1.1×1.9 cm left superior parathyroid mass with enhancement and punctate non-obstructing right kidney stones. Hypercalcemia responded extremely well to medical management (calcitonin, 4 mg of zoledronic acid infusion and 13 days of cinacalcet 30 mg daily) resulting in normalization of S Ca. However, patient required a prolonged hospitalization for aspiration pneumonia and severe electrolyte disturbances. Since patient was not a good surgical candidate and hypercalcemia resolved on medical management, patient was discharged to a rehab facility with the plan to pursue parathyroidectomy as outpatient. S Ca worsened progressively and was 10.4 mg/dl (albumin 3.6 mg/dl) with PTH 130 pg/ml on day 15 after discharge. Cinacalcet was added when hypercalcemia further worsened to 11.7 mg/dl (albumin 3.6 mg/dl) on day 38. However, patient was hospitalized again for altered mental status, recurrent severe hypercalcemia (S Ca 15.7 mg/dl, albumin 3.8 mg/dl, PTH 1299 pg/ml), hypokalemia and urinary tract infection. In the ED, patient developed complete heart block that responded to atropine. Interestingly, hypercalcemia was recalcitrant to aggressive medical management during this hospitalization (zoledronic acid 4 mg infusion, calcitonin IM- increased up to 6 mg IM q6hr, cinacalcet- increased to 60 mg PO BID and IV fluid resuscitation with furosemide as needed). S Ca was 14.2 mg/dl (albumin 3.4 mg/dl) on day 8 of hospitalization. Therefore, urgent left superior parathyroidectomy was performed. Surgical pathology revealed a 3.1 gm parathyroid adenoma. Post-operative day#1 labs showed normal PTH 17.3 pg/ml, S Ca 12.1 mg/dl and albumin 3.2 mg/dl. S Ca and patient's mental status normalized over next few days. Discussion Urgent parathyroidectomy has shown to have excellent outcomes in patients with parathyroid crisis. Our patient's severe hypercalcemia initially responded excellently to medical management but recurred within few weeks and developed resistance to medical management. Our case highlights the importance of performing surgical exploration as soon as possible after initial medical stabilization in patients with parathyroid crisis. Presentation: Saturday, June 11, 2022 1:00 p.m. - 3:00 p.m.

Published

2022

14. Sleep is Required for Odor Exposure to Consolidate Memory and Remodel Olfactory Synapses

Author

Rashmi Chandra, Fatima Farah, Fernando Muñoz-Lobato, Anirudh Bokka, Kelli L. Benedetti, Chantal Brueggemann, Fatema Saifuddin, Julia M. Miller, Joy Li, Eric Chang, Aruna Varshney, Vanessa Jimenez, Anjana Baradwaj, Cibelle Nassif, Sara Alladin, Kristine Andersen, Veronica Bi, Sarah K. Nordquist, Raymond L. Dunn, Bryan Tsujimoto, Alan Tran, Alex Duong, Rebekka Paisner, Carlos E. Zuazo, Matthew A. Churgin, Christopher Fang-Yen, Martina Bremer, Saul Kato, Noelle Dominique L'Etoile, and Miri K. VanHoven

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

15. PMON279 Variability in Cognitive Performance by Sexual Orientation among US Older Adults: Findings from the National Health and Nutrition Examination Survey (NHANES) 2011-2012 and 2013-2014

Author

Samantha Bookbinder, Ravi Kant, Siddharth Patel, Lakshya Chandra, Mc Anto Antony, Rashmi Chandra, and Vipin Verma

Subjects

Endocrinology, Diabetes and Metabolism

Abstract

Aim Previous evidence suggests that some fields of cognitive function are man dominated while others are woman dominated. Recent research has additionally associated sexual orientation with cognitive function. However, data on the effect of sexual orientation on various cognitive subdomains are limited. We aim to explore the variability in a range of cognitive subdomains (working memory, language, attention, processing speed, and executive functioning) by cis-gender hetero versus homo sexual orientation. Methods We combined NHANES 2011–2012 and NHANES 2013–2014 datasets to study the individuals (60-69 years old) with both sexual health and cognitive assessment data. We analyzed the data to assess the performance of heterosexual and homosexual men and women on various cognitive function assessments. We used 1) word learning and recall modules from the Consortium to Establish a Registry for Alzheimer's disease (CERAD) to examine new verbal learning, immediate and delayed memory; 2) the Animal Fluency test (AFT) to evaluate verbal sematic fluency and 3) the Digital Symbol Substitution test (DSST) to assess attention and processing speed. Mentally impaired individuals or participants who were unable to understand or read English, Spanish, Korean, Vietnamese, traditional or simplified Mandarin, or Cantonese were not asked questions regarding sexual orientation and hence, were excluded from final analysis. Simple Linear regression models were used to quantify the association of sexual orientation and cognitive function. Statistical significant was specified at P < 0.05. Results Our study population consists of 61 homosexual adults (39 men and 22 women) and 3087 heterosexual adults (1486 men and 1601 women). Comparison of heterosexual men and women demonstrated differences typically found between the genders, with heterosexual women performing significantly better on all cognitive function assessments. Homosexual men scored significantly higher than heterosexual men on all cognitive function assessments and performed in the direction of heterosexual women in all cognitive domains. In fact, mean scores for homosexual men were even higher than for heterosexual women in the four of the six cognitive domains tested (CERAD 2 and delayed recall, AFT and DSST). Homosexual women did not differ from heterosexual women and homosexual men on any of the measures of cognitive performance. Therefore, as expected, homosexual women scored higher points than heterosexual men on most cognitive assessments (CERAD 1,3 and delayed recall, and DSST). Conclusion Homosexual men were gender-atypical and performed in the direction of heterosexual women in cognitive domains related to working memory, language, attention, processing speed, and executive functioning. Homosexual women were sex-typical with cognitive skills similar to heterosexual women. These findings underscore the need for further studies to understand the association of sexual orientation with cognitive functioning. Presentation: Monday, June 13, 2022 12:30 p.m. - 2:30 p.m.

Published

2022

16. Nitrite reduction using a membrane biofilm reactor (MBfR) in a hypoxic environment with dilute methane under low pressures

Author

Wael, Alrashed, Rashmi, Chandra, Timothy, Abbott, and Hyung-Sool, Lee

Subjects

Bioreactors, Environmental Engineering, Nitrogen, Biofilms, Denitrification, Environmental Chemistry, Anaerobiosis, Wastewater, Methane, Oxidation-Reduction, Pollution, Waste Management and Disposal, Nitrites

Abstract

Methane-based membrane biofilm reactors (MBfRs) can be an effective solution for nitrogen control in wastewater, but there is limited information on nitrite reduction for dilute wastewater (e.g., municipal wastewater) in hypoxic MBfRs. This study assessed the impacts of dilute (20 %), low-pressure methane (0.35-2.41 kPa) applied to MBfRs at hydraulic retention times (HRTs) of 2-12 h on nitrite removals, dissolved methane concentrations, and the resulting changes in the microbial community. High nitrite flux along with rapid and virtually complete (99 %) nitrite removals were observed at methane pressures of 1.03-2.41 kPa at HRTs above 4 h, despite the use of diluted methane gas for the MBfR. The lowest methane pressure (0.35 kPa) was also able to achieve up to 98 % nitrite removals but required HRTs of up to 12 h. All scenarios had low dissolved methane concentrations (10 mg/L), indicating that dilute methane at low supply pressures can effectively remove nitrite while meeting dissolved methane guidelines in treated effluent. Methylococcus genus was the key bacterium in MBfR biofilm grown at different HRTs and methane pressures, along with Methylocystis and other heterotrophic denitrifiers (Terrimonas and Hyphomicrobium). This study indicates that methane-based denitrification MBfRs can be a valuable tool to meet nitrogen limits for dilute wastewater coupled to partial nitrification, while limiting the release of methane to the environment.

Published

2022

17. Real-time continuous glucose monitoring improves glycemic control and reduces hypoglycemia: Real-world data

Author

Ravi Kant, Mc Anto Antony, David Geurkink, Nathan Gilreath, Lakshya Chandra, Elizabeth Zipprer, Kashif M. Munir, Rashmi Chandra, Veronica G. Parker, and Vipin Verma

Subjects

Adult, Blood Glucose, Glycated Hemoglobin, Nutrition and Dietetics, Endocrinology, Diabetes and Metabolism, Blood Glucose Self-Monitoring, Glycemic Control, Hypoglycemia, Diabetes Mellitus, Type 1, Glucose, Internal Medicine, Humans, Hypoglycemic Agents, Insulin, Family Practice, Retrospective Studies

Abstract

To study the effect of real time continuous glucose monitor (RT-CGM) use on glycemic parameters in patients with diabetes mellitus (DM) in real world practice.We retrospectively studied 91 adult subjects with DM who had been using Dexcom™ RT-CGM. Two consecutive hemoglobin A1c (HbA1c), both prior to and after at least 3 months of RT-CGM initiation, were collected. A total of 31 subjects completed a 5-14 day user blinded CGM using a Freestyle Libre™ prior to RT-CGM initiation. The first two week period following at least 3 months use of RT-CGM was analyzed for CGM metrics.A total of 51.6 % of subjects had T1DM, 34.1 % used continuous subcutaneous insulin infusion (CSII), and 62.6 % had DM for 10 years. Both HbA1c obtained following RT-CGM initiation decreased significantly compared to baseline (8.11 + 1.47% vs 7.69 + 1.25 %; P = 0.0028.16 + 1.51 % vs 7.62 + 1.06 %; P = 0.001). Subjects with baseline HbA1c 7.0 % showed even more robust reduction in both HbA1c after RT-CGM initiation (8.74 + 1.24 % vs 7.99 + 1.22 %; P = 0.0008.74 + 1.32 % vs 7.85 + 1.07 %; P = 0.001). On comparison of CGM metrics, there was a significant reduction in time spent in hypoglycemia (sugars70 mg/dl) including severe hypoglycemia (sugars54 mg/dl) after initiation of the RT-CGM (9.16 + 8.68 % vs 1.29 + 2.21 %; P = 0.0014.58 + 5.43 % vs 0.28 + 0.58 %; P = 0.001). CoV of glucose was also decreased significantly (39.61 + 9.36 % vs 31.06 + 6.74 %; P = 0.001) with RT- CGM use.RT-CGM use for at least 3 months in patients with DM results in meaningful HbA1c reductions with stable glycemic control without increasing the risk of hypoglycemia.

Published

2021

18. β-Sitosterol & quercetin enhances brain development in iodine deficient rat models

Author

Rashmi Chandra, Sushant Singh, and Chaiti Ganguly

Subjects

Nutrition and Dietetics, Medicine (miscellaneous), General Medicine

Abstract

Background Recently thyroid hormone studies on brain growth, development and activity are regaining popularity. Thyroid hormones have long been believed to play critical role in mammalian brain growth and maturation regulating facets of neuronal cell growth, proliferation and differentiation and further signaling and glial cell differentiation. Deficiency of these hormones in mother leads to mental retardation in the subsequent offspring's. Methods In this presented study, brain development of iodine deficient rat models created through deficiency in feeding, mating and further selection. Young adult female wistar rats were induced with iodine deficiency and then mated with healthy male rats. These pregnant hypothyroid induced females were treated with β-sitosterol (150 mg/kg/day) and quercetin (150 mg/kg/day) alone and in combination for whole gestation period. Analysis were dealt with the genetic and histological studies of the pups brain. PCR based RNA analysis was also carried out. Histology was done using eosin and hematoxylin. Results Positive impacts of the β-sitosterol and quercetin on the iodine deficient brain were observed upon histological and PCR analysis. Altogether, the analysis proves that combined doses of β-sitosterol and quercetin for normal brain development in iodine deficient infants hence can be potentially applied as therapeutics in iodine deficiency circumstances.

Published

2022

19. The TRPV Channel OSM-9 is Required Non-Cell Autonomously for Sleep-Dependent Olfactory Memory

Author

Kelli L. Benedetti, Mashel Fatema A. Saifuddin, Julia M. Miller, Rashmi Chandra, Kevin Daigle, Alec Chen, Christine Lin, Angel Garcia, Burhanuddin Calcuttawala, Angelica Tovar, Jackson Borchardt, Raymond L. Dunn, Julia A. Kaye, Saul Kato, Bo Zhang, Maria E. Gallegos, Torsten Wittmann, and Noelle D. L’Etoile

Subjects

Transient receptor potential channel, medicine.anatomical_structure, TRPV5, OSM-9, medicine, Sensory system, Memory consolidation, Olfactory memory, Biology, Neuroscience, TRPV, Sensory neuron

Abstract

Memory, defined as an alteration in behavior towards a stimulus that follows as a consequence of experience, arises when a sensory stimulus is encountered at the same time that the animal experiences a negative or positive internal state. How this coincident detection of external and internal stimuli stably alters responses to the external stimulus is still not fully understood, especially in the context of an intact animal. One barrier to understanding how an intact biological circuit changes is knowing what molecular processes are required to establish and maintain the memory. The optically accessible and compact nervous system ofC. elegansprovides a unique opportunity to examine these processes.C. eleganscan remember an odor such as butanone when it is paired with a single negative experience and the transient receptor potential (TRP) OSM-9/TRPV5/TRPV6 channel is known to be required for this memory. The multiple gating mechanisms of TRPV channels give them the potential to be the coincidence detectors required to integrate internal state and external stimuli. Here, we report that this TRPV channel is also required for acquisition and possibly consolidation of sleep-dependent, long-term memory of butanone. We find that in the anterior ganglion, endogenous GFP-tagged OSM-9 is expressed in the paired AWA olfactory neurons, the ASH nociceptive neuron pair, the mechanosensory OLQ tetrad, and the paired ADF and ADL sensory neurons. In these cells, OSM-9 protein is concentrated in the sensory endings, dendrites, and cell bodies, but excluded from the neurites in the nerve ring. In the tail, OSM-9 is expressed in the nociceptive phasmid neurons PHA and PHB, possibly PQR as well as PVP. In the midbody, it is possibly expressed in the mechanosensitive PVD neuron. It is notably absent from the AWC pair that are required for butanone attraction. Chronic loss of OSM-9 in a subset of ciliated neurons that do not include AWA interferes with consolidation but not learning. Because OSM-9 is expressed and required in sensory neurons that are not needed for butanone chemosensory behavior, two interpretations are possible. The first, is that OSM-9 loss leads to gain of function or neomorphic behavior of these cells that are extrinsic to the primary sensory circuit and their new activity interferes with acquisition and consolidation of memory. The second is that loss of OSM-9 leads to a loss of function phenotype in which the wild type function of these cells is diminished and this function is required for memory consolidation.Author summaryHow organisms learn from their environment and keep these memories for the long term ensures their survival. There is much known about the regions of the brain and the various proteins that are essential for memory, yet the exact molecular mechanisms and dynamics required are not known. We aimed to understand the genetics that underlie memory formation. We tested a gene that encodes a transient potential receptor channel vanilloid channel, which is similar to the channels we have that sense spicy foods and other harmful cues. Our studies have shown that this gene is required for the animal to be able to acquire and perhaps consolidate olfactory memory. This protein is not expressed in the sensory neurons that respond to the odor that is memorized or in other downstream interneurons in the odor-sensation circuit, but it is expressed in a distinct set of sensory neurons. This indicates that long-term memory involves wild type behavior of a wider array of sensory neurons than is required for the primary sensation. These channels are also implicated in neurological disorders where memory is affected, including Alzheimer’s disease. Understanding how memory formation is affected by cells outside the memory circuit might provide testable hypothesis about what goes awry in Alzheimer’s disease.

Published

2020

20. Sleep is required for odor exposure to consolidate memory and remodel olfactory synapses

Author

Rashmi Chandra, Fatima Farah, Fernando Muñoz-Lobato, Anirudh Bokka, Kelli L. Benedetti, Chantal Brueggemann, Fatema Saifuddin, Julia M. Miller, Joy Li, Eric Chang, Aruna Varshney, Vanessa Jimenez, Anjana Baradwaj, Cibelle Nassif, Sara Alladin, Kristine Andersen, Angel J. Garcia, Veronica Bi, Sarah K. Nordquist, Raymond L. Dunn, Kateryna Tokalenko, Emily Soohoo, Vanessa Garcia, Sukhdeep Kaur, Malcolm Harris, Fabiola Briseno, Brandon Fung, Andrew Bykov, Hazel Guillen, Decklin Byrd, Emma Odisho, Bryan Tsujimoto, Alan Tran, Alex Duong, Kevin C. Daigle, Rebekka Paisner, Carlos E. Zuazo, Matthew A. Churgin, Christopher Fang-Yen, Martina Bremer, Saul Kato, Noëlle D. L’Étoile, and Miri K. VanHoven

Subjects

medicine.anatomical_structure, Odor, Interneuron, Period (gene), medicine, Memory consolidation, Neuron, Biology, Inhibitory postsynaptic potential, Neuroscience, Sleep in non-human animals

Abstract

SUMMARYAnimals with complex nervous systems demand sleep for memory consolidation and synaptic remodeling. Here we show that though theCaenorhabditis elegansnervous system has a limited number of neurons, sleep is necessary for both processes. In addition, it is unclear in any system if sleep collaborates with experience to alter synapses between specific neurons and whether this ultimately affects behavior.C. elegansneurons have defined connections and well-described contributions to behavior. We show that spaced odor-training and post-training sleep induce long-term memory. Memory consolidation, but not acquisition, requires a pair of interneurons, the AIYs, which play a role in odor-seeking behavior. In worms that consolidate memory, both sleep and odor conditioning are required to diminish inhibitory synaptic connections between the AWC chemosensory neurons and the AIYs. Thus, we demonstrate in a living organism that sleep is required for events immediately after training that drive memory consolidation and alter synaptic structures.

Published

2020

21. Avascular Necrosis of Both Hips From Iatrogenic Cushing ’s Syndrome due to Coadministration of Fluticasone and Ritonavir in an HIV-Infected Patient

Author

Vipin Verma, Kashif M. Munir, Rashmi Chandra, Mark D Cromer, and Ravi Kant

Subjects

drug-drug interactions, medicine.medical_specialty, general medicine pharmacology, medicine.medical_treatment, avascular osteonecrosis, protease inhibitors, iatrogenic cushing’s syndrome, Infectious Disease, hiv, Cushingoid, Avascular necrosis, Adrenocorticotropic hormone, 030204 cardiovascular system & hematology, avascular necrosis (avn), Gastroenterology, Fluticasone propionate, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Internal Medicine, medicine, Hydrocortisone, Fluticasone, business.industry, Endocrinology/Diabetes/Metabolism, fluticasone, General Engineering, medicine.disease, ritonavir, Nasal spray, Ritonavir, inhaled corticosteroids, business, 030217 neurology & neurosurgery, medicine.drug

Abstract

We report a case of avascular necrosis (AVN), hypercalcemia, and iatrogenic Cushing’s syndrome in an HIV-positive patient taking inhaled (ICS) and nasal corticosteroids fluticasone and ritonavir. A 45-year-old HIV-infected African-American woman was seen for initial evaluation for multinodular goiter in December 2015. Relevant medications were ritonavir, raltegravir, darunavir, fluticasone propionate HFA, and nasal fluticasone propionate. Physical examination revealed classical cushingoid appearance but laboratory testing showed abnormal adrenocorticotropic hormone (ACTH) stimulation test. A diagnosis of iatrogenic Cushing’s syndrome due to inhibition of fluticasone metabolism from protease inhibitor (PI) therapy with secondary adrenal suppression was made. Fluticasone nasal spray and HFA were discontinued and hydrocortisone replacement dose was initiated. The patient’s Cushing’s related symptoms improved over several months. Follow-up evaluation showed non-parathyroid hormone-mediated hypercalcemia. A detailed laboratory evaluation looking for the etiology for hypercalcemia was unremarkable except for an elevated urine N-telopeptide/creatinine ratio. Meanwhile, the patient developed a new symptom of hip pain. MRI of both hips showed bilateral AVN. Sickle cell screen was negative and a right hip replacement was completed in May 2017. Since this is the fourth case report of AVN from iatrogenic Cushing’s syndrome in an HIV-infected patient taking a PI and ICS concomitantly, there is more likely a causal relationship and not simply a coincidental finding. Extreme caution should be used when considering any ICS therapy in combination with PIs in HIV-infected patients.

Published

2020

22. Effect of serum zinc and copper levels on insulin secretion, insulin resistance and pancreatic β cell dysfunction in US adults: Findings from the National Health and Nutrition Examination Survey (NHANES) 2011-2012

Author

Rahul Chaudhary, Alan R. Shuldiner, Ravi Kant, Kashif M. Munir, Rashmi Chandra, Vipin Verma, and Siddharth Patel

Subjects

Adult, Male, medicine.medical_specialty, National Health and Nutrition Examination Survey, Endocrinology, Diabetes and Metabolism, Cell, 030209 endocrinology & metabolism, History, 21st Century, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Insulin resistance, Diabetes mellitus, Internal medicine, Insulin Secretion, Internal Medicine, medicine, Humans, 030212 general & internal medicine, Prediabetes, business.industry, Confounding, General Medicine, Middle Aged, medicine.disease, Nutrition Surveys, United States, Zinc, medicine.anatomical_structure, Treatment Outcome, Homeostatic model assessment, Female, Insulin Resistance, business, Copper

Abstract

Aim To compare zinc (Zn) and copper (Cu) levels in US adults with normoglycemia, prediabetes and diabetes, and study the association of serum Zn and Cu levels with pancreatic β cell insulin secretion, pancreatic dysfunction and insulin resistance in US adults with normoglycemia and prediabetes. Method Homeostatic Model Assessment (HOMA2) calculator was used to compute estimates of steady state β cell insulin secretion (HOMA2-B), peripheral insulin sensitivity (HOMA2-S), insulin resistance (HOMA-IR), and disposition index (HOMA-DI) in 804 adult individuals from the National Health and Nutrition Examination Survey (NHANES 2011–2012). Results There was no significant difference between serum Zn and Cu levels among subjects with normoglycemia, prediabetes, and diabetes. After adjusting for multiple possible confounders, higher serum Zn concentrations were associated with lower β cell insulin secretion (HOMA2-B; p = 0.01) and lower insulin resistance (HOMA-IR; p = 0.04) in the prediabetic subjects. In normoglycemic group, higher serum Zn levels were associated with improved pancreatic function (HOMA-DI; P = 0.02). On the other hand, higher serum Cu levels were associated with increased β cell insulin secretion (HOMA2-B, P = 0.03) only in the subjects with prediabetes. Conclusion These findings support the need for further studies to investigate the role of trace elements in diabetes pathogenesis.

Published

2020

23. Hydrogen Production and Contaminants Removal Using Microbial Electrochemical Cells

Author

Rashmi Chandra and Claudia Camacho-Zuñiga

Subjects

body regions, chemistry.chemical_classification, Chemical engineering, chemistry, Electrode, Sewage treatment, Electron acceptor, Contamination, Electrochemistry, Cathodic protection, Electrochemical cell, Hydrogen production

Abstract

Microbial electrochemical cells (MEC) constitute an emerging technology between electrochemistry and microbiology. MEC have been designed for various product recovery and reduction of oxidized contaminants. They are based on the bacterial interaction with insoluble electron acceptors, relying on the exchange of metabolic electron removed e-donor or supplied to the electrode. In this chapter, we will discuss the cathodic H2 production and the removal of oxidized contaminates in MEC.

Published

2020

24. Bioreactor for algae cultivation and biodiesel production

Author

Garima Vishal, Carlos Eduardo Gámez Sánchez, Janet Alejandra Gutiérrez Uribe, and Rashmi Chandra

Subjects

Biodiesel, Biofuel, Biodiesel production, Saturated fatty acid, Bioreactor, Biomass, Environmental science, Bioprocess, Pulp and paper industry, Photosynthesis

Abstract

Cyanobacteria and microalgae have the ability to convert sunlight and convert carbon dioxide (CO2) photosynthetically to biofuel like hydrogen, biodiesel, and value-added compounds. They have unique compositions of saturated fatty acid for providing good fuel quality. Their metabolic versatility helps them to grow in various nutritional environments. However, bioprocess scale-up remains a bottleneck in commercializing these technologies. Modes of cultivation are of major importance for upscaling and generating huge amounts of biomass with the required fuel properties. Different bioreactor designs have been explored for the cultivation of microalgae and cyanobacteria by fusing the required conditions of biomass productivity and environmental sustainability. For economical biomass production, different bioreactor configuration strategies have been discussed in this chapter. This chapter reflects on the current state of photosynthetic biomass cultivation toward biodiesel production and carbon footprint reduction.

Published

2020

25. Cardiovascular Impact of Newer Diabetes Medications

Author

Ravi Kant, Arshpreet Kaur, Vipin Verma, Nathan A. Gilreath, Rashmi Chandra, and McAnto Antony

Subjects

medicine.medical_specialty, business.industry, Disease, medicine.disease, Comorbidity, Metformin, Heart failure, Diabetes mellitus, medicine, In patient, Intensive care medicine, business, Glucagon-like peptide 1 receptor, Glycemic, medicine.drug

Abstract

Cardiovascular disease (CVD) in the diabetic patient is both widespread and fatal in nature. In the United States, roughly two-thirds of deaths in diabetic patients are due to CVD. In addition to the increased morbidity and mortality of CVD in a patient with diabetes, the impact of this comorbidity on health care expenditure is staggering. Unfortunately, researches on the effects of strict glycemic control on cardiovascular (CV) events have been unable to demonstrate a conclusive benefit, despite improvement for microvascular complications. Newer glycemic agents, specifically the glucagon-like peptide-1 receptor agonists (GLP-1 RA) and sodium-glucose cotransporter-2 (SGLT-2) inhibitors, have shown much more promising cardioprotective properties, and are valuable as an add-on therapy for patients who do not reach their hemoglobin A1c goal on metformin alone. Most of the drugs in GLP-1 RA and SGLT-2 inhibitor class have shown strong cardioprotective effects in well-designed cardiovascular outcome trials and all of them have demonstrated CV safety. Multiple SGLT-2 inhibitors have shown renal protective effects as well as prevent hospitalization for heart failure and hence, should be preferred over GLP-1 RAs in patients with concurrent T2DM and heart failure or CKD.

Published

2020

26. A biorefinery approach for dairy wastewater treatment and product recovery towards establishing a biorefinery complexity index

Author

Rashmi Chandra, Roberto Parra-Saldívar, Patricio Delgado, and Carlos Castillo-Zacarías

Subjects

Renewable Energy, Sustainability and the Environment, Computer science, 020209 energy, Strategy and Management, Process design, 02 engineering and technology, 010501 environmental sciences, Raw material, Biorefinery, 01 natural sciences, Bioplastic, Industrial and Manufacturing Engineering, Biofuel, Bioproducts, Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Production (economics), Biochemical engineering, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Nowadays, dairy waste represents a global challenge as a result of the amount produced worldwide. Initially, one of the major objectives was to transform this waste into a single valuable product, but recently the concept of biorefinery has been applied to convert dairy waste into several valuable bioproducts such as biofuels, feed additives, bioplastics, and chemicals. Despite the potential that represents this kind of waste for the production of bioproducts, it is not a technology used extensively. An important factor that can help to become the biorefinery of dairy waste more attractive is the measure of the biorefinery complexity index (BCI). The BCI is a measure of the technological and economic risk to develop a biorefinery process using specific raw materials, production, extraction and purification processes. Our analysis of a dairy biorefinery gives a BCI of 20, which reflects a sustainable biorefinery. The dairy biorefinery synergistic approach predicted presents a zero-waste generation in the dairy industry. This will provide strength in academic and industrial level towards a biorefinery process design.

Published

2018

27. Biotransformation and degradation of 2,4,6-trinitrotoluene by microbial metabolism and their interaction

Author

Magdalena Rostro-Alanis, Carlos Castillo-Zacarías, Roberto Parra-Saldívar, Monica Serrano-Gonzalez, Felipe Robledo-Padilla, and Rashmi Chandra

Subjects

0301 basic medicine, biology, Chemistry, Mechanical Engineering, Pseudomonas, Metals and Alloys, Computational Mechanics, Microbial metabolism, Enterobacter, 010501 environmental sciences, Biodegradation, musculoskeletal system, biology.organism_classification, 01 natural sciences, Desulfovibrio, 03 medical and health sciences, Stropharia, Military Science, 030104 developmental biology, Biotransformation, Environmental chemistry, Ceramics and Composites, Rhodococcus, 0105 earth and related environmental sciences

Abstract

2,4,6-trinitrotoluene (TNT) and its derivatives are nitrogen-containing aromatic compounds having chemical and thermal stability at ambient temperature and pressure. TNT has high toxicity and mutagenic activity to humans, plants and animals, thus decontamination processes are necessary. Many microorganisms are capable to bioremediate TNT such as bacteria from the genera Pseudomonas, Enterobacter, Rhodococcus, Mycobacterium, Clostridium and Desulfovibrio; fungus such as Phanerochate and Stropharia species are able to perform TNT biotransformation under aerobic and anaerobic conditions. In this work we review the state of TNT biodegradation by various routes: aerobic, anaerobic, combined, fungal, enzymatic, and bio-electrochemical. Keywords: Laccases, Aerobic degradation, Anaerobic degradation, Fungal TNT degradation

Published

2018

28. Photosynthetic Synergism for Sustained Power Production with Microalgae and Photobacteria in a Biophotovoltaic Cell

Author

Rashmi Chandra, J. Shanthi Sravan, Sai Kishore Butti, S. Venkata Mohan, and Manupati Hemalatha

Subjects

0106 biological sciences, Biophotovoltaic, Chemistry, General Chemical Engineering, Energy Engineering and Power Technology, Biomass, 010501 environmental sciences, Photosynthesis, 01 natural sciences, Anoxygenic photosynthesis, Anode, Fuel Technology, Wastewater, Chemical engineering, 010608 biotechnology, Sewage treatment, Photosynthetic bacteria, 0105 earth and related environmental sciences

Abstract

This article documents the synergetic interaction between oxygenic photosynthesis (microalgae; cathode) and anoxygenic photosynthesis (photosynthetic bacteria; anode) toward bioenergy and biomass generation apart from wastewater treatment using a dual chambered biophotovoltaic cell. Microalgae as the biocathode negate the requirement of an external terminal electron acceptor as they can be efficient in situ oxygenators that facilitate the oxygen reduction reactions. Experiments were performed in a fed batch mode using designed synthetic wastewater at variable organic loading rates in the anodic chamber and domestic sewage as feed in the cathodic chamber with a retention time of 72 h. Operation at OL3 (1500 mg/L) showed maximum power output (0.7 V; 103 mW/m2). Anodic chamber showed a maximum substrate (COD) degradation efficiency of 81%, while the cathode showed a constant COD removal efficiency of 90%. Maximum microalgal lipid productivity of 20% was observed at OL4 and OL5. The designed biophotovoltaic c...

Published

2017

29. Nutrients utilization and contaminants removal. A review of two approaches of algae and cyanobacteria in wastewater

Author

Rashmi Chandra, J. Saúl García-Pérez, Bruce E. Rittmann, Gibrán S. Alemán-Nava, Jose R. Contreras-Angulo, Koenraad Muylaert, Sara P. Cuellar-Bermudez, Roberto Parra-Saldívar, and Giorgos Markou

Subjects

Pollutant, Cyanobacteria, biology, 020209 energy, 02 engineering and technology, 010501 environmental sciences, biology.organism_classification, Pulp and paper industry, 01 natural sciences, Extracellular polymeric substance, Wastewater, Algae, Biogas, Biofuel, Botany, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Eutrophication, Agronomy and Crop Science, 0105 earth and related environmental sciences

Abstract

The detection of new pollutants, stricter environmental regulations, and advancements in treatment technologies are driving improvements in bioprocesses for treating wastewater. Specifically, special concern is being placed on phosphorus and nitrogen forms, which spur eutrophication of water bodies, and emerging micropollutants such as pharmaceuticals and person-care products. Algae and cyanobacteria cultivation requirements include water and nutrient sources that currently are supplied by fertilizers, which provide poor sustainability and economics. Using wastewater as a source of nitrogen and phosphorus represents an attractive option to cultivate microalgae simultaneous with contaminant removal. Phycoremediation refers to the assimilation or disintegration of organic and inorganic compounds (carbon, nitrogen, or phosphorus), metals, and emerging contaminants in wastewater by microalgae – algae and cyanobacteria. In addition, added value comes when the microalgae are harvested to become feedstock for biofuels such as biogas. Although promising studies have been published for algal growth in wastewater while simultaneously removing contaminants, limitations in the scale-up process still have to be addressed. In this work, we summarize biological mechanisms by which nutrients and contaminants are removed by microalgae. We specifically address the interactions that the microalgae have with other microorganisms and the production of extracellular polymeric substances, a mechanism well known in the literature, but hardly studied in microalgae. Finally, we discuss different strategies reported to improve the scale up of microalgae cultivation in wastewater.

Published

2017

30. Advancement of green process through microwave-assisted extraction of bioactive metabolites from Arthrospira Platensis and bioactivity evaluation

Author

Sara P. Cuellar-Bermudez, Roberto Parra-Saldívar, José Rodríguez-Rodríguez, Diego A. Esquivel-Hernández, Rashmi Chandra, Jade E. Núñez-Echevarría, J. Saúl García-Pérez, Magdalena Rostro-Alanis, and Elena I. Mancera-Andrade

Subjects

Environmental Engineering, Antioxidant, medicine.medical_treatment, Bioengineering, Microbial Sensitivity Tests, Chemical Fractionation, 01 natural sciences, chemistry.chemical_compound, Anti-Infective Agents, Phenols, beta-Carotene, Phycocyanin, Spirulina, medicine, Microwaves, Waste Management and Disposal, Chromatography, Plant Extracts, 010405 organic chemistry, Renewable Energy, Sustainability and the Environment, Chemistry, 010401 analytical chemistry, Extraction (chemistry), General Medicine, beta Carotene, 0104 chemical sciences, Solvent, Yield (chemistry), Biodiesel production, Solvents

Abstract

Bioactivity and functional properties of cyanobacterial extract mostly depends on process of extraction, temperature and solvent used (polar or non-polar). To evaluate these parameters a design of experiment (DOE; using a 2k design) was performed with Arthrospira platensis. Extraction process was optimized through microwave-assisted extraction considering solvent ratio, temperature and time of extraction with polar (PS) and non-polar (NPS). Maximum extract yield obtained was 4.32±0.25% and 5.26±0.11% (w/w) respectively for PS and NPS. Maximum content of bioactive metabolites in PS extracts were thiamine (846.57±14.12μg/g), riboflavin (101.09±1.63μg/g), C-phycocyanin (2.28±0.10μg/g) and A-phycocyanin (4.11±0.03μg/g), while for NPS extracts were α-tocopherol (37.86±0.78μg/g), β-carotene (123.64±1.45μg/g) and 19.44±0.21mg/g of fatty acids. A. platensis PS extracts showed high antimicrobial activity and PS extracts had antioxidant activity of 0.79±0.12μmolTE/g for FRAP assay, while for NPS extracts 1.03±0.08μmol α-TE/g for FRAP assay.

Published

2017

31. Health benefits of Cactus

Author

Shiv Charan Sharma, Prashasti Bhandari, Afroz Alam, Iwuala Emmanuel, and Rashmi Chandra

Subjects

Computer Networks and Communications, Hardware and Architecture, Agroforestry, Cactus, Biology, Health benefits, Software

Published

2019

32. Fundamentals of Photosynthetic Microbial Fuel Cell

Author

Rashmi Chandra and Garima Vishal

Subjects

chemistry.chemical_compound, Microbial fuel cell, biology, chemistry, Chemical physics, Anabaena, Synechocystis, Carbon dioxide, Bioreactor, Photophosphorylation, Photosynthetic bacteria, biology.organism_classification, Photosynthesis

Abstract

This chapter focuses on renewable power generation approaches based on the coupling of photosynthetic bioreactors. In PhFCs, oxidation of organic compounds results in electrons production by photosynthetic bacteria. PhFC research has allowed the generation of a wide variety of different system configurations, the use of photosynthetic mechanism, and respective organisms. Oxygenic photosynthetic species commence charge separation results in delivering electrons and protons in a photophosphorylation cascade. Photosynthetic microbial fuel cell research started with cyanobacterial species of Synechocystis and Anabaena by documenting the increment in power output in light and decrement in power during the dark. Photosynthetic organisms use carbon dioxide as carbon source, and photosynthetic reactions involve the reduction of this molecule. Oxygen generation in photosynthetic reactions represents an interesting characteristic in the cathode process, because mechanic aeration requires vast quantities of energy. Illumination is a salient feature for growth of photosynthetic microorganisms.

Published

2019

33. Contributors

Author

Helena M. Amaro, Lorenzo Ferrari Assú Tessari, Olivier Bernard, Thallada Bhaskar, Bijoy Biswas, Sai Kishore Butti, A. Catarina Guedes, Rashmi Chandra, Jo-Shu Chang, Tawan Chatsungnoen, Yi-Di Chen, Chun-Yen Chen, Yusuf Chisti, Pierre Collet, Jorge Alberto Vieira Costa, Júlio Cesar de Carvalho, Bárbara Catarina Bastos Freitas, Michele Greque Morais, Su-Chiung Fang, F.G. Acién Fernández, Emilio Molina Grima, Arnaud Hélias, Shih-Hsin Ho, I-Chen Hu, Susan Grace Karp, Choon Gek Khoo, Gerhard Knothe, Man Kee Lam, Laurent Lardon, Duu-Jong Lee, Keat Teong Lee, Luiz Alberto Junior Letti, Fei-Yu Liu, Giorgos Markou, Bryan Gregory Mitchell, Florian Monlau, Marjorie Morales, Dillirani Nagarajan, Carlos José Dalmas Neto, Gregory W. O’Neil, M. Prathima Devi, Wen-Ying Qu, K. Rajesh, Christopher M. Reddy, M.V. Rohit, Thaisa Duarte Santos, José María Fernández Sevilla, Kuan-Yeow Show, Carlos Ricardo Soccol, Isabel Sousa-Pinto, Jean-Philippe Steyer, Eduardo Bittencourt Sydney, Alessandra Cristine Novak Sydney, S. Venkata Mohan, G. Venkata Subhash, Francisco Menino Destéfanis Vítola, Yue Wang, F. Xavier Malcata, Yue-Gen Yan, and Hong-Wei Yen

Published

2019

34. Symbiotic Co-Culture of Scenedesmus sp. and Azospirillum brasilense on N-Deficient Media with Biomass Production for Biofuels

Author

Rashmi Chandra, Nídia S. Caetano, Koenraad Muylaert, Jose R. Contreras-Angulo, J. Saúl García-Pérez, Teresa M. Mata, Sara P. Cuellar-Bermudez, Roberto Parra-Saldívar, and Faculdade de Engenharia

Subjects

Geography, Planning and Development, Environmental Studies, Biomass, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, 7. Clean energy, Renewable energy sources, 0202 electrical engineering, electronic engineering, information engineering, GE1-350, Food science, Green & Sustainable Science & Technology, Scenedesmus, biology, Environmental effects of industries and plants, Chemistry, 6. Clean water, PHOSPHORUS, Wastewater, Biofuel, BACTERIA, Science & Technology - Other Topics, GROWTH, Aeration, nitrogen concentration, LIPID-ACCUMULATION, Life Sciences & Biomedicine, OBLIQUUS, 020209 energy, TJ807-830, Environmental Sciences & Ecology, Azospirillum brasilense, Management, Monitoring, Policy and Law, TD194-195, microalgae-bacteria co-culturing, Dry weight, WASTE-WATER, Bioenergy, ALGINATE BEADS, MICROALGAE CHLORELLA-VULGARIS, Scenedesmus sp, 0105 earth and related environmental sciences, Science & Technology, Renewable Energy, Sustainability and the Environment, Building and Construction, AMMONIUM, biology.organism_classification, Environmental sciences, SPP, mixing system, Environmental Sciences

Abstract

The treatment of nitrogen-deficient agriculture wastewater, arising from the vegetable and fruit processing, is a significant problem that limits the efficiency of its biological treatment. This study evaluates the effectiveness of the symbiotic co-culture of Azospirillum brasilense and Scenedesmus sp., under two nitrogen levels (8.23 mg L&minus, 1 and 41.17 mg L&minus, 1) and mixing systems (aeration and magnetic stirring), aiming to simultaneously use the N-deficient media for their growth while producing biomass for biofuels. Microalgae growth and biomass composition, in terms of protein, carbohydrate and fatty acid contents, were evaluated at the end of the exponential growth phase (15 days after inoculation). Results show that the symbiotic co-culture of microalgae-bacteria can be effectively performed on nitrogen-deficient media and has the potential to enhance microalgae colony size and the fatty acid content of biomass for biofuels. The highest biomass concentration (103 &plusmn, 2 mg&middot, L&minus, 1) was obtained under aeration, with low nitrogen concentration, in the presence of A. brasilense. In particular, aeration contributed to, on average, a higher fatty acid content (48 &plusmn, 7% dry weight (DW)) and higher colony size (164 &plusmn, 21 &micro, m2) than mechanical stirring (with 39 &plusmn, 2% DW and 134 &plusmn, m2, respectively) because aeration contribute to better mass transfer of gases in the culture. Also, co-culturing contributed in average, to higher colony size (155 &plusmn, m2) than without A. brasilense (143 &plusmn, m2). Moreover, using nitrogen deficient wastewater as the culture media can contribute to decrease nitrogen and energy inputs. Additionally, A. brasilense is approved and already extensively used in agriculture and wastewater treatment, without known environmental or health issues, simplifying the biomass processing for the desired application.

Published

2019

35. Contributors

Author

Rouzbeh Abbassi, Ibrahim M. Abu-Reesh, Juan S. Arcila, Kotakonda Arunasri, Juan Antonio Baeza, Enric Blázquez, Abhijeet P. Borole, Germán Buitrón, Sai Kishore Butti, René Cardeña, Carlos Castillo-Zacarias, Rashmi Chandra, K. Chandrasekhar, Ka Yu Cheng, Govinda Chilkoor, P. Chiranjeevi, Hulya Civelek Yoruklu, Nazua L. Costa, Debabrata Das, Ahmet Demir, Chirayu Desai, Pridhviraj Desale, Bipro Ranjan Dhar, Sangeetha Dharmalingam, Saurabh Sudha Dhiman, Ahmed El Mekawy, Adrian Escapa, J. Satya Eswari, Yujie Feng, Ana P. Fernandes, Bruno M. Fonseca, David Gabriel, Venkataramana Gadhamshetty, Lei Gao, Vikram Garaniya, Rajeev K. Gautam, Veera Gnaneswar Gude, Albert Guisasola, Weihua He, Hanaa M. Hegab, Manupati Hemalatha, Abid Hussain, Kunal Jain, Jenny Johnson, Sokhee P. Jung, Ramesh Kakarla, Vidhi Kalola, Rengasamy Karthikeyan, James Kilduff, Bahareh Kokabian, Sanath Kondaveeti, K. Vamshi Krishna, Vaidhegi Kugarajah, B. Sudheer Kumar, A. Kiran Kumar, A. Naresh Kumar, Hyung-Sool Lee, P.N.L. Lens, Alex J. Lewis, Da Li, Nan Li, Jia Liu, Wenzong Liu, Ricardo O. Louro, Datta Madamwar, Elena I. Mancera-Andrade, Raul Mateos, Booki Min, J. Annie Modestra, S. Venkata Mohan, Gunda Mohanakrishna, Antonio Moran, Y.V. Nancharaiah, G.N. Nikhil, Emre Oguz Koroglu, Bestami Ozkaya, Ashok Pandey, Soumya Pandit, Deepak Pant, Catarina M. Paquete, Alka Pareek, Piyush Parkhey, Roberto Parra-Saldívar, Sunil A. Patil, R.S. Prakasham, Navanietha K. Rathinam, Rohit Rathour, C. Nagendranatha Reddy, M. Venkateswar Reddy, Isaac Rivera, Shantonu Roy, David R. Salem, Rajesh K. Sani, Sambhu Saptoka, Omprakash Sarkar, Uwe Schröder, Namita Shrestha, Ana V. Silva, J. Shanthi Sravan, Pratiksha Srivastava, Moogambigai Sugumar, Xiaohang Sun, Kuchi Swathi, Ekant Tamboli, Pier-Luc Tremblay, Inês B. Trindade, Karolien Vanbroekhoven, Jhansi L. Varanasi, Sunita Varjani, Ramya Veerubhotla, G. Velvizhi, Bhuvan Vemuri, Anil Verma, Ling Wang, Xin Wang, Ai-Jie Wang, Huanting Wang, Jonathan W.C. Wong, Lichao Xia, Asheesh Kumar Yadav, Dileep Kumar Yeruva, and Tian Zhang

Published

2019

36. Algal oils as biodiesel

Author

S. Venkata Mohan, K M Rajesh, Rashmi Chandra, M. Prathima Devi, G. Venkata Subhash, Sai Kishore Butti, and M.V. Rohit

Subjects

Biodiesel, Flue gas, Biodiesel production, Sustainability, State of art, Biomass, Environmental science, Photobioreactor, Sewage treatment, Pulp and paper industry

Abstract

Microalgae have the intrinsic ability to harness energy from sunlight and photosynthetically valorize CO2 into fuel molecules, which can further be converted to biodiesel. They have a unique profile of fatty acids comprising of a mixture of saturated and unsaturated fatty acids. Microalgae have adapted to grow in various nutritional environments due to their metabolic versatility and resilience. Cultivation systems are of major importance for upscaling and generating large amounts of biomass with fuel properties. Novel photobioreactor designs have recently been explored for integration with urban infrastructure by fusion of principles of urban ecology and environmental sustainability. High throughput techniques for estimation of biodiesel quality have made analysis simpler and more reliable. For economical production of biomass, integrating biodiesel production with industrial flue gases and wastewater treatment is considered a viable strategy in algal cultivation. This chapter sheds light on the current state of art in algal cultivation for biomass and enhancing the lipid profile towards biodiesel production thus reducing carbon footprints.

Published

2019

37. Fundamentals of Biophotovoltaics for Conversion of Solar Energy to Bioelectricity

Author

Carlos Castillo-Zacarías, Rashmi Chandra, Elena I. Mancera-Andrade, Roberto Parra-Saldívar, and S. Venkata Mohan

Subjects

Electricity generation, Microbial fuel cell, Wastewater, business.industry, Environmental science, Applied research, Biohydrogen, Biochemical engineering, Electricity, business, Solar energy, Renewable energy

Abstract

Recently developed technologies of photosynthetic microbial fuel cells (PhFCs) that utilize solar energy to produce electricity have gained important interest in basic and applied research due to their sustainable and renewable nature. Photosynthetic microbes have been studied in diverse reactor configurations to understand the mechanism of their operation. Besides power generation, PhFCs have a potential to treat wastewater along with the production of diverse value-added products such as biohydrogen and lipids, among others, through a biochemical process. The potential uses of this technology are part of the domain of environmental engineering and bioremediation, and the involvement of multiple disciplines. This chapter explores the state of art of PhFC systems for efficient utilization of photosynthetic mechanisms for product recovery, wastewater treatment and pertaining mechanisms.

Published

2019

38. Methods for Extraction of Valuable Products from Microalgae Biomass

Author

Carlos Castillo-Zacarías, Carmen Salinas-Salazar, Rashmi Chandra, Hafiz M.N. Iqbal, J. Saúl García-Pérez, and Roberto Parra-Saldívar

Subjects

Nutraceutical, Lipid extraction, Chemistry, Biofuel, Product recovery, Extraction (chemistry), Supercritical fluid extraction, Biomass, Biochemical engineering, Solvent extraction

Abstract

Microalgae are regarded as a promising and feasible source of diverse products for application in the nutraceutical, pharmaceutical, cosmeceutical, and chemical industries. Such products include biofuels, lipids, polyunsaturated fatty acids, pigments, enzymes, polysaccharides, and proteins. The recovery of products from algal biomass is a matter of constant development and progress. In the present chapter, the standard techniques for the extraction of biofuels and high-value metabolites from microalgae in the laboratory are reviewed. Traditional methods such as solvent extraction, as well as novel techniques, like supercritical fluid extraction, microwave-assisted extraction, and ultrasound-assisted extraction, are presented in this work, including the suitability of these methods for specific types of metabolites. Pretreatment techniques for the enhancement of product recovery are discussed. This chapter is intended as a reference of the existing methods for the researcher looking forward to study the production of metabolites by microalgae, in order to aid the selection of a suitable technique for specific metabolites.

Published

2019

39. Valorization of food waste and economical treatment: Effect of inoculation methods

Author

Jangho Lee, Swakshar Saha, Rashmi Chandra, Wudneh Ayele Shewa, Abid Hussain, and Hyung-Sool Lee

Subjects

biology, Renewable Energy, Sustainability and the Environment, Inoculation, Chemistry, 020209 energy, Strategy and Management, Microorganism, Lactococcus, 05 social sciences, 02 engineering and technology, Building and Construction, biology.organism_classification, Industrial and Manufacturing Engineering, Hydrolysis, Food waste, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, Fermentation, Food science, Leachate, Bacteria, 0505 law, General Environmental Science

Abstract

We evaluated cost-effective food waste (FW) treatment and synthesis of volatile fatty acids (VFA) using a leach bed reactor (LBR) operated at neutral pH and room temperature to maximize the profit from recovered products. Three inoculation strategies that include (1) inoculum pretreatment, (2) pretreatment plus leachate recycle, and (3) sole leachate recycle were examined and LBR performance was compared in these inoculation conditions. The inoculation method influenced the hydrolysis of FW in the LBR. Hydrolysis yield was as high as 771 ± 4 g cum.sCOD/kg VSadded with the second inoculation method only in a short reaction time of 6 d. Butyric and acetic acids consistently dominated VFA, and the LBR achieved the highest VFA yield of 649 ± 13 g COD/kg VSadded in the second inoculation. Bacterial community dynamics targeting 16S rRNA gene suggested that Roseburia would be the key player to fermentation of slowly biodegradable FW (e.g., fibers), while multiple types of bacteria affiliated with Enterobacteriaceae, Lactococcus, and Bacteroides mainly fermented FW to butyric and acetic acids at initial phase. The operating cost for FW treatment was calculated $88.1-$126.8 per ton of VSadded in the LBR. This study suggests that LBRs can economically stabilize FW only in 6 d without regular inoculation of exogenous microorganisms, along with high VFA recovery.

Published

2020

40. Effect of ultra-violet exposure on production of mycosporine-like amino acids and lipids by Lyngbya purpurem

Author

Roberto Parra Saldivar, Rashmi Chandra, Fernanda P. Pons-Faudoa, and Bruce E. Rittmann

Subjects

Cyanobacteria, chemistry.chemical_classification, Antioxidant, biology, Renewable Energy, Sustainability and the Environment, Chemistry, 020209 energy, medicine.medical_treatment, Ultra violet, Forestry, 02 engineering and technology, biology.organism_classification, Lyngbya, Amino acid, Metabolic engineering, Lipid content, 0202 electrical engineering, electronic engineering, information engineering, medicine, lipids (amino acids, peptides, and proteins), Food science, Waste Management and Disposal, Agronomy and Crop Science

Abstract

Cyanobacteria can have high lipid content, are amenable to metabolic engineering, and contain valuable materials, such as ultraviolet (UV) protectants and antioxidants. Maximizing the production and harvesting of several valuable products at the same time is an important objective. UV exposure was evaluated as a strategy to induce synthesis of UV protectants, higher lipid productivity, and a high lipid-saturation index in the cyanobacterium Lyngbya purpurem UTEX LB 2716. While UVA stimulated the highest production of lipids and the largest amount of mycosporine-like amino acids (MAAs), UVB lead to greater generation of MAAs, which correlated to higher antioxidant activity. UVB also showed a shift towards saturated fatty acids, such as C16:0 and C18:0, over unsaturated fatty acids, whereas UVA showed a shift towards the unsaturated fatty acids. In summary, UVB induced the highest MAAs production, anti-oxidant activity, and lipid saturation, and its yield of crude lipids and extracted FAME was only slightly lower than with UVA.

Published

2020

41. Algal biorefinery: A sustainable approach to valorize algal-based biomass towards multiple product recovery

Author

Hafiz M.N. Iqbal, Hyung-Sool Lee, Rashmi Chandra, Sunil Nagra, and Garima Vishal

Subjects

0106 biological sciences, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Process (engineering), Product recovery, Biomass, Bioengineering, Context (language use), General Medicine, 010501 environmental sciences, Plants, Biorefinery, 01 natural sciences, 010608 biotechnology, Biofuels, Environmental science, Biochemical engineering, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

In recent years, ever-increasing socio-economic awareness, and negative impact of excessive petro consumption have redirected the research interests towards bio-resources such as algal-based biomass. In order to meet current bio-economy challenges to produce high-value multiple products at a time, new integrated processes in research and development are necessary. Though various strategies have been posited for conversion of algal-based biomass to fuel and fine chemicals, none of them has been proved as economically viable and energetically feasible. Therefore, a range of other bio-products needs to be pursued. In this context, the algal bio-refinery concept has appeared with notable solution to recover multiple products from a single operation process. Herein, an algal-based bio-refinery platform for fuel, food, and pharmaceuticals considering Bio-refinery Complexity Index (BCI) has been evaluated, as an indicator of techno-economic risks. This review presents recent developments on algal-biomass utilization for various value-added products as part of an integrated bio-refinery.

Published

2018

42. Factors affecting the induction of UV protectant and lipid productivity in Lyngbya for sequential biorefinery product recovery

Author

Garima Vishal, Rashmi Chandra, Sunil Nagra, and Probir Das

Subjects

0106 biological sciences, Cyanobacteria, Environmental Engineering, Nitrogen, Ultraviolet Rays, Bioengineering, 010501 environmental sciences, Mass balance, Lyngbya, medicine.disease_cause, 01 natural sciences, Lyngbya purpurem, 010608 biotechnology, medicine, Food science, Solubility, Amino Acids, Waste Management and Disposal, 0105 earth and related environmental sciences, chemistry.chemical_classification, Biodiesel, biology, Renewable Energy, Sustainability and the Environment, Chemistry, Lipid saturation index, Fatty Acids, Fatty acid, General Medicine, biology.organism_classification, Biorefinery, Lipids, Mycosporine-like amino acid, UV protectant, Oxidative stress

Abstract

With objective to design cyanobacterial biorefinery, taking Lyngbya as a model organism, a detail sequential protocol has been developed for production of UV protectant and lipids. This study addresses ultra violet radiations (UVR), exposure time of UVRT, nitrogen stress, salinity, oxidative stress to produce UV protectant and lipid in cyanobacteria. To evaluate these parameters a design of experiment (DOE; using a 2 k design) was performed. Based on chemical solubility property of UV protectant in form of mycosporine like amino acid (MAAs) and lipids were extracted. Quantitative and qualitative assay of UV protectant was confirmed by spectrophotometric scanning and Fourier-transform infrared spectroscopy and lipid through fatty acid methyl esters analysis. Nitrogen abundance and high oxidative stress is helpful in the synthesis of UV protectant. This study concluded, UV exposure is good strategy to induce synthesis of UV protectant and saturated lipid productivity. This biorefinery approach encourages economical and environmentally sustainable options. The authors want to thank the Director of the School of Engineering and Science, Tecnologico de Monterrey , for his encouragement and financial support. Rashmi Chandra wants to thank Conacyte for proving support in form of SNI-C (CVU No. 739144). Scopus

Published

2018

43. Optimization of Culture Conditions for Amylase Production by Bacteria Isolated from Soil

Author

Arun Kumar Sharma, Vinay Sharma, Jyoti Saxena, Rashmi Chandra, and Afroz Alam

Published

2015

44. Biophotovoltaic cell to harness bioelectricity from acidogenic wastewater associated with Microbial Community Profiling

Author

J. Annie Modestra, Rashmi Chandra, and S. Venkata Mohan

Subjects

Acidogenesis, biology, Biophotovoltaic, Chemistry, General Chemical Engineering, Organic Chemistry, Energy Engineering and Power Technology, Dark fermentation, biology.organism_classification, Pulp and paper industry, Anoxygenic photosynthesis, Fuel Technology, Wastewater, Biochemistry, Biohydrogen, Photosynthetic bacteria, Proteobacteria

Abstract

Decarboxylation of short chain carboxylic acids or volatile fatty acids (VFA) for bioelectricity generation was explored using mixed photosynthetic bacteria (PSB) as biocatalyst in a single chambered photo-bioelectrocatalytic system (PBES)/biophotovoltaic system. Acetate rich wastewater (ARW) and butyrate rich wastewater (BRW) were synthetically prepared to be used as substrates for the comparative evaluation of photo bacteria catalyzed decarboxylation towards bioelectrogenic ability. Bioelectrogenic activity in terms of open circuit voltage, current and power density in ARW (605 mV; 2.14 mA; 112.20 mW m −2 ) was 55% higher than that of BRW (208 mV; 0.49 mA; 10.50 mW m −2 ). The first-derivative of cyclic voltammograms (DCV) also depicted the role of redox shuttles viz., Cytochrome-b and NADPH as electron carriers, detected as peaks in ARW operation in enhancing the performance of PBES. In addition, the phylogenetic inventory illustrated the dominance of proteobacteria such as Rhodopseudomonas sp. and Thiorhodovibrio sp. including N 2 fixers ( Amoebobacter sp.), which are the potent bio-electrogens. Anoxygenic photosynthesis by purple non sulfur bacteria has the potential for the treatment of acidogenic effluents from biohydrogen reactor with simultaneous yield of reducing equivalents for power generation. The integration of PBES with conventional biohydrogen production by dark fermentation has a potential application in the field of acidogenic waste valorization which is in concurrence with the concept of biorefinery.

Published

2015

45. Isolation and Screening of Amylolytic Bacteria from Soil

Author

Arun Kumar Sharma, Vinay Sharma, Jyoti Saxena, Rashmi Chandra, Afroz Alam, and Anand Prakash

Published

2015

46. Lipid metabolism in response to individual short chain fatty acids during mixotrophic mode of microalgal cultivation: Influence on biodiesel saturation and protein profile

Author

Rashmi Chandra, M.V. Rohit, Somya Arora, and S. Venkata Mohan

Subjects

Chlorophyll, Environmental Engineering, Palmitic Acid, Acetate-CoA Ligase, Bioengineering, Butyrate, Acetates, Wastewater, Biology, Phosphates, Water Purification, Palmitic acid, chemistry.chemical_compound, Microalgae, Biohydrogen, Biomass, Food science, Waste Management and Disposal, Biological Oxygen Demand Analysis, chemistry.chemical_classification, Biodiesel, Nitrates, Renewable Energy, Sustainability and the Environment, Chlorophyll A, Fatty acid, Lipid metabolism, General Medicine, Fatty Acids, Volatile, Lipid Metabolism, Lipids, Butyrates, chemistry, Biochemistry, Biofuels, Biodiesel production, Propionate, Propionates, Gasoline, Biotechnology

Abstract

Critical influence of different short chain fatty acids as organic carbon source, during growth (GP) and nutrient stress lipogenic phase (NSLP) was investigated on biomass and lipid productivity, in mixotrophic fed-batch microalgae cultivation. Nutrient deprivation induced physiological stress stimulated highest lipid productivity with acetate (total/neutral lipids, 35/17) with saturation index of 80.53% by the end of NSLP followed by butyrate (12/7%; 78%). Biomass growth followed the order of acetate (2.23 g/l) >butyrate (0.99 g/l) >propionate (0.77 g/l). VFA removal (as COD) was maximum with acetate (87%) followed by butyrate (55.09%) and propionate (10.60%). Palmitic acid was the most dominant fatty acid found in the fatty acid composition of all variants and butyrate fed system yielded a maximum of 44% palmitic acid. Protein profiling illustrated prominence of acetyl CoA-synthetase activity in acetate system. Thus, fatty acids provide a promising alternative feedstock for biodiesel production with integrated microalgae-biorefinery.

Published

2015

47. Heterotrophic microalgae cultivation to synergize biodiesel production with waste remediation: Progress and perspectives

Author

M.V. Rohit, S. Venkata Mohan, P. Chiranjeevi, Rashmi Chandra, and B. Navaneeth

Subjects

Biodiesel, Environmental Engineering, Waste management, Renewable Energy, Sustainability and the Environment, Heterotrophic Processes, Bioengineering, General Medicine, Carbon Dioxide, Wastewater, Raw material, Biology, Biorefinery, Algae fuel, Biofuel, Bioenergy, Biofuels, Biodiesel production, Microalgae, Sewage treatment, Waste Management and Disposal, Environmental Restoration and Remediation

Abstract

Microalgae are inexhaustible feedstock for synthesis of biodiesel rich in polyunsaturated fatty acids (PUFA) and valuable bioactive compounds. Their cultivation is critical in sustaining the global economy in terms of human consumption of food and fuel. When compared to autotrophic cultivation, heterotrophic systems are more suitable for producing high cell densities of microalgae for accumulation of large quantities of lipids (triacylglycerols) which can be converted into biodiesel. Consorted efforts are made in this communication to converge recent literature on heterotrophic cultivation systems with simultaneous wastewater treatment and algal oil production. Challenges faced during large scale production and limiting factors which hinder the microalgae growth are enumerated. A strategic deployment of integrated closed loop biorefinery concept with multi-product recovery is proposed to exploit the full potential of algal systems. Sustainable algae cultivation is essential to produce biofuels leading to green future.

Published

2015

48. Biophotovoltaics: Conversion of Light Energy to Bioelectricity Through Photosynthetic Microbial Fuel Cell Technology

Author

Parra Saldivar Roberto, S. Venkata Mohan, Rashmi Chandra, Bruce E. Ritmann, and Raul Alexis Sanchez Cornejo

Subjects

Microbial fuel cell, Phototroph, Biophotovoltaic, business.industry, Chemistry, 020209 energy, 02 engineering and technology, Dark fermentation, 010501 environmental sciences, Photosynthesis, 01 natural sciences, Anoxygenic photosynthesis, Renewable energy, Environmental chemistry, 0202 electrical engineering, electronic engineering, information engineering, Autotroph, business, 0105 earth and related environmental sciences

Abstract

Solar radiation led into the planet earth by photosynthesis is the main energy basis for survival. Photosynthesis is a physico-chemical process where photosynthetic organism transform solar energy into chemical energy with simultaneous use of bioenergetic processes (Georgianna and Mayfield 2012; Strik et al. 2011). Photosynthetic microbial fuel cells (PhFCs) are newly established tools that harvest sun energy to yield electricity and has gained major attentiveness in applied and academic research due to its sustainable and renewable nature (Chandra et al. 2012; Venkata Mohan et al. 2014). PhFCs use plants or phototrophic microorganisms to trap sun light and use photo-bioelectrochemical system to produce bioelectricity (El Mekawy et al. 2014). This technology symbolizes a multi-disciplinary method to search for renewable energy. It represents the convergence for the life-sciences, chemical and physical science (McCormick et al. 2015; Xiao and He 2014). Microbial fuel cells (MFCs) are mainly focused towards anodic reaction with dark fermentation as microbial metabolic function. Analogous to dark fermentation, photosynthetic fuel cells (PhFC) or biophotovoltaic system (BPV) will also be functioned using photo synthetic bacteria (PSB) or algae/cyanobacteria based on their photosynthetic mechanism (oxygenic or anoxygenic) (Chandra et al. 2012; Rosenbaum et al. 2010a). Oxygenic photosynthesis based autotrophic PhFCs include diverse categories of MFC containing both heterotrophs and autotrophs (Venkata Mohan et al. 2010a, b, 2011) (Fig. 19.1). The current chapter has made an attempt to convey the present photosynthetic mechanism for PhFC application in understanding on the innate potential of photosynthetic mechanism.

Published

2017

49. α-Synuclein in gut endocrine cells and its implications for Parkinson’s disease

Author

Rashmi Chandra, Yien-Ming Kuo, Annie Hiniker, Robert L. Nussbaum, and Rodger A. Liddle

Subjects

0301 basic medicine, Nervous system, Gut Endocrine Cells, Parkinson's disease, animal diseases, Central nervous system, Enteroendocrine cell, General Medicine, Biology, medicine.disease, nervous system diseases, Gut Epithelium, Cell biology, stomatognathic diseases, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, nervous system, medicine, α synuclein, 030217 neurology & neurosurgery, Intracellular, Research Article

Abstract

Parkinson’s disease (PD) is a progressive neurodegenerative disease with devastating clinical manifestations. In PD, neuronal death is associated with intracellular aggregates of the neuronal protein α-synuclein known as Lewy bodies. Although the cause of sporadic PD is not well understood, abundant clinical and pathological evidence show that misfolded α-synuclein is found in enteric nerves before it appears in the brain. This suggests a model in which PD pathology originates in the gut and spreads to the central nervous system via cell-to-cell prion-like propagation, such that transfer of misfolded α-synuclein initiates misfolding of native α-synuclein in recipient cells. We recently discovered that enteroendocrine cells (EECs), which are part of the gut epithelium and directly face the gut lumen, also possess many neuron-like properties and connect to enteric nerves. In this report, we demonstrate that α-synuclein is expressed in the EEC line, STC-1, and native EECs of mouse and human intestine. Furthermore, α-synuclein–containing EECs directly connect to α-synuclein–containing nerves, forming a neural circuit between the gut and the nervous system in which toxins or other environmental influences in the gut lumen could affect α-synuclein folding in the EECs, thereby beginning a process by which misfolded α-synuclein could propagate from the gut epithelium to the brain.

Published

2017

50. ILDR1 null mice, a model of human deafness DFNB42, show structural aberrations of tricellular tight junctions and degeneration of auditory hair cells

Author

Neil J. Ingham, Eva L. Morozko, Thomas B. Friedman, Tracy S. Fitzgerald, Elizabeth A. Wilson, Ayako Nishio, Gavin P. Riordan, Rashmi Chandra, Andrew Forge, Karen P. Steel, Elisa Martelletti, Philine Wangemann, Inna A. Belyantseva, Guntram Borck, and Rodger A. Liddle

Subjects

Endocochlear potential, Hearing Loss, Sensorineural, Receptors, Cell Surface, Biology, Cell junction, Tight Junctions, Mice, 03 medical and health sciences, 0302 clinical medicine, Hair Cells, Auditory, otorhinolaryngologic diseases, Genetics, medicine, Animals, Humans, Inner ear, Nonsyndromic deafness, Molecular Biology, Genetics (clinical), Cochlea, 030304 developmental biology, 0303 health sciences, Tight junction, Articles, General Medicine, Anatomy, medicine.disease, 3. Good health, Cell biology, Tissue Degeneration, Disease Models, Animal, MARVEL Domain Containing 2 Protein, medicine.anatomical_structure, Organ of Corti, Mutation, sense organs, 030217 neurology & neurosurgery

Abstract

In the mammalian inner ear, bicellular and tricellular tight junctions (tTJs) seal the paracellular space between epithelial cells. Tricellulin and immunoglobulin-like (Ig-like) domain containing receptor 1 (ILDR1, also referred to as angulin-2) localize to tTJs of the sensory and non-sensory epithelia in the organ of Corti and vestibular end organs. Recessive mutations of TRIC (DFNB49) encoding tricellulin and ILDR1 (DFNB42) cause human nonsyndromic deafness. However, the pathophysiology of DFNB42 deafness remains unknown. ILDR1 was recently reported to be a lipoprotein receptor mediating the secretion of the fat-stimulated cholecystokinin (CCK) hormone in the small intestine, while ILDR1 in EpH4 mouse mammary epithelial cells in vitro was shown to recruit tricellulin to tTJs. Here we show that two different mouse Ildr1 mutant alleles have early-onset severe deafness associated with a rapid degeneration of cochlear hair cells (HCs) but have a normal endocochlear potential. ILDR1 is not required for recruitment of tricellulin to tTJs in the cochlea in vivo; however, tricellulin becomes mislocalized in the inner ear sensory epithelia of ILDR1 null mice after the first postnatal week. As revealed by freeze-fracture electron microscopy, ILDR1 contributes to the ultrastructure of inner ear tTJs. Taken together, our data provide insight into the pathophysiology of human DFNB42 deafness and demonstrate that ILDR1 is crucial for normal hearing by maintaining the structural and functional integrity of tTJs, which are critical for the survival of auditory neurosensory HCs.

Published

2014