Session Introduction

Shree Kumar Apte

Bhabha Atomic Research Centre, India

Title: Engineering cyanobacterial nitrogen bio-fertilizer for rice cultivation in stressful environment

Biography:

Shree Kumar Apte obtained his Master’s in Botany from Jiwaji University, Gwalior, India with a Gold Medal in Science Faculty in 1972. He researched at the Bhabha

Atomic Research Centre (BARC), Mumbai, India for 42 year, before retiring in 2014 as a distinguished Scientist and Director of the Bioscience Group, BARC. He is

an elected fellow of all three National Science Academies and the National Agriculture Science Academy in India. Currently he serves as Emeritus Professor, Homi

Bhabha National Institute, J C Bose National Fellow (DST) and Raja Ramanna Fellow (DAE) at BARC, Mumbai.

Abstract:

As a naturally abundant, photosynthetic, nitrogen-fi xing microbe, the cyanobacterium Anabaena contributes signifi cantly to

the nitrogen and carbon economy of tropical soils, especially in cultivation of rice paddy. However, its nitrogen bio-fertilizer

potential is adversely aff ected by common abiotic stresses. Engineering enhanced nitrogen fi xation and stress tolerance capabilities

in this microbe through genetic manipulation is seriously limited due to the unavailability of appropriate tools and techniques

and knowledge of suitable candidate genes. In recent years, our laboratory has devised an electroporation protocol for genetic

transformation that achieves high frequency gene transfer and overcomes problems associated with the current practice of triparental

conjugation between E. coli strains and Anabaena. We have also constructed (a) a suitable vector for new gene discoveries,

and (b) a novel integrative expression vector pFPN, placing desired genes at a defi ned locus in Anabaena genome and facilitates their

high level expression from an eco-friendly light-inducible promoter. Using these tools we have identifi ed several genes responsible

for enhanced heterocyst formation and nitrogen fi xaton (hetR), chaperones (groESL, cpn60) for protein folding and homeostasis, and

several oxidative stress tolerance genes (superoxide dismutases, catalases and peroxiredoxins) which confer superior stress tolerance

to Anabaena. Th e approach has proved very useful for constructing recombinant Anabaena strains capable of nitrogen fi xation in

stressful environments.

Mamuka Kvaratskhelia

University of Colorado School of Medicine, USA

Title: The dual role of integrase in HIV-1 replication

Biography:

Mamuka Kvaratskhelia began his independent research career at the Ohio State University in 2003 and has focused on better understanding of the structure and

function of HIV-1 integrase as a therapeutic target. He has recently (2017) moved to University of Colorado Denver as a Professor of Medicine (Infectious Diseases)

to further extend his studies on HIV-1 integrase. By employing innovative biochemical, biophysical, structural biology, molecular biology and virology approaches,

his research team has made many important contributions to the fi eld, which include the discovery of second, non-catalytic role of integrase in HIV-1 biology and

elucidating the mode of action of ALLINIs.

Abstract:

A key HIV-1 enzyme integrase catalyzes irreversible insertion of a viral DNA copy of its RNA genome into human chromosome,

which is essential for viral replication. Th erefore, integrase is an important therapeutic target. Productive integration into host

chromatin results in the formation of the strand transfer complex (STC) containing catalytically joined viral and target DNAs. We

have used cryo-EM coupled with biochemistry and virology experiments to obtain high-resolution structures for STCs and to

characterize the integrase multi-subunit assemblies into large, nucleoprotein complexes. We are currently extending these studies

to elucidate structural basis for the mode of action of clinically used integrase strand transfer inhibitors (INSTIs), which bind to the

enzyme active site in the context of the integrase-viral DNA complex and block the strand transfer reaction. Our parallel eff orts are

focused on studying allosteric HIV-1 integrase inhibitors (ALLINIs), which are currently undergoing clinical trials (2-5). Unlike

INSTIs, ALLINIs bind at the integrase dimer interface and induce aberrant protein multimerization. Unexpectedly, in infected cells

ALLINIs were signifi cantly more potent during virion maturation rather than during integration. ALLINIs markedly altered virus

particle morphogenesis by misplacing the ribonucleoprotein complexes outside the protective viral capsid shell and yielded inactive

virions. In turn, these fi ndings have suggested that integrase has a second function in HIV-1 biology. Our follow up studies have

revealed that integrase directly binds the viral RNA genome in virions. Th ese interactions have specifi city, as integrase exhibits

distinct preference for select viral RNA structural elements. ALLINIs impair integrase binding to viral RNA in virions of wild-type,

but not escape mutant, virus. Th ese results reveal an unexpected biological role of integrase binding to the viral RNA genome during

virion morphogenesis and elucidate the mode of action of ALLINIs. Collectively our fi ndings indicate that viral integrase plays a dual

role during HIV-1 replication.

Alessandra Astegno

University of Verona, Italy

Title: Characterization of cystathionine γ-lyase from T. gondii: A target for drug development?

Biography:

Alessandra Astegno is interested in diff erent aspects of Protein Chemistry and Enzymology, including folding, evolution and structure-function relationship of

proteins and macromolecular assemblies. She is currently an Assistant Professor in Biochemistry at the Department of Biotechnology of the University of Verona.

She has a solid background in recombinant protein expression and purifi cation, functional and structural characterization of pyridoxal phosphate-dependent

enzymes as well as metallo-proteins.

Abstract:

Toxoplasma gondii is a protozoan parasite of medical and veterinary relevance responsible for toxoplasmosis in humans. As there

is currently no vaccine available for human, the identifi cation of good target candidates for future drug development is urgently

required. A recent proteomic analysis of partially sporulated oocysts of T. gondii showed that oocyctes have a greater capability of

de novo amino acid biosynthesis, shedding light on a stage-specifi c subset of proteins whose functional profi le is consistent with

the oocyst need to resist various environmental stresses. Among these putative oocyst/sporozoite-specifi c proteins, three enzymes

involved in cysteine metabolism, i.e., cystathionine β-synthase, cystathionine γ-lyase (CGL) and cysteine synthase, were found.

However, despite the central metabolic roles of these enzymes, the functionality of none of them has so far been investigated. Herein,

CGL from T. gondii (TgCGL) has been cloned, expressed and physiochemically and enzymatically characterized. Th e purifi ed TgCGL

is a functional enzyme which splits L-cystathionine almost exclusively at the CγS bond to yield L-cysteine. Th is fi nding likely implies

that the reverse transsulfuration pathway is operative in the parasite. Th e enzyme displays only marginal reactivity toward L-cysteine,

which is also a mixed-type inhibitor of TgCGL activity, therefore indicating a tight regulation of cysteine intracellular levels in the

parasite. Structure-guided homology modelling revealed two striking amino acid diff erences between human and parasite CGL active

sites (Glu59 and Ser340 in human to Ser77 and Asn360 in toxoplasma). Mutation of these two residues to the corresponding residues

in human revealed their importance in modulating both substrate and reaction specifi city of the parasitic enzyme. Our fi ndings might

have far-reaching implications for the use of TgCGL as anti-toxoplasmosis drug target.

Yungui Yang

Northwest A & F University, China

Title: Infulence of four kinds of additives and concentration on oats silage effect

Biography:

Yungui Yang graduated from China Agricultural University in 1987 with a Master's degree in Grassland Science. In August of the same year, he taught at the

Northwest A&F University. In 2006, he received a Doctorate in Soil Resources and Information Technology direction. Now he is a member of Lawn Professional

Committee of China Grass Society and Director of Grassland Resources and Management Committee. In October 2012, he went to the United States to attend

the international annual conference jointly organized by the American Society of Agricultural Sciences, the Crop Science Society and the Soil Science Society. In

October 2013, he went to Mongolia to attend the Eurasian Pacifi c Union Symposium. He is currently a Member of Comprehensive Utilization of Straw Resources of

China Agronomy, a review expert of Life Science Division of NSFC, a fellow of American Society of Agricultural Sciences, Soil Society and Crop Society.

Abstract:

Statement of the Problem: Th e aim for this research was to study the eff ect of diff erent additives and concentration on oat silage.

Selected Dancer as material was used for silage in milk stage, and four kinds of additives respectively at diff erent concentration were

used. Th ey were lactobacillus (0 mg/kg, 1 mg/kg, 5 mg/kg, 10 mg/kg), formic acid (0 ml/kg, 1 ml/kg, 5 ml/kg, 10 ml/kg), sucrose (0%,

1%, 2%, 4%) and cellulose (0 mg/kg, 50 mg/kg, 100 mg/kg, 150 mg/kg). Th e materials were ensiled at room temperature and opened

60 days later, and the fermentation quality and the chemical composition were analyzed. Results showed that it had a positive impact

on Dancer silage with four kinds of additives. Considering nutritional value index(crude protein, ether extract and crude fi ber) When

cellulase were applied at 50 mg/kg, the oats silage were excellent. Considering silage quality indexes of pH value, AN/TN, soluble

sugar content and lactic acid content, sucrose at 2% level was the best concentration. Th e best concentration of diff erent additives

were that: lactobacillus (5 mg/kg), formic acid (5ml/kg), sucrose (2%) and the infl uence on silage quality have no close connection

with concentration when added cellulase.

C Gopinathan

University of calicut, India

Title: Enhanced production of Bacillus thuringiensis subspecies israelensis delta endotoxin by the use of rotten pineapple juice and fish-amino acid as medium ingredients

Biography:

C Gopinathan is working as a Associate Professor in the Department of Biotechnology at the University of Calicut. He has fi nished his MSc, MTech in Biotechnology.

His specialization is towards Bioprocess Technology/Fermentation Technology. He is the former member of Academic Council, University of Calicut, American

Society for Microbiology and Association of Microbiologists of India.

Abstract:

Mosquito borne diseases not only cause loss of lives but also impose heavy health and economic burdens. Extensive use of

chemical insecticides for the control of malaria and other mosquito borne diseases has led to the development of resistance in

mosquitoes to these insecticides and are hazardous to the environment. Biolarvicides of the strain Bacillus thuringiensis israelensis

(Bti), serotype H-14 is highly eff ective against mosquito larvae. Even though Bti products are effi cient controls for mosquito and black

fl y larvae, their use in developing countries is limited by their cost. Th us, there is a need to reduce the overall production cost of Bti in

order to make it competitive in the market. It depends on many factors; however, the raw material cost is one of the most important

criteria which may comprise >70% of the overall production cost. Fruit wastes are available in plenty and contain mainly fructose as

the carbon source, which is easily fermentable and can substitute costly substrates like glucose. Channelizing huge quantities of rotten/

waste pineapples which otherwise are discarded can substantially reduce production cost of Bti. Similarly fi sh-amino acid produced

by fermenting rotten fi sh and jaggery/molasess has proved to be excellent as a medium supplement; especially to overproduce the

much wanted delta endotoxin produced by Bti. India is one of the countries leading in fruit and vegetable production. It is also blessed

with one of the longest coastline in the world of approximately 7516.6 km. Th e total annual catch is around 4 million metric tons. In

addition it is second aft er Brazil in sugarcane cultivation with an annual yield of 3412 million metric tons. Th e massive availability

of fruit wastes (pineapples) and huge quantities of rotten /discarded fi sh , which are freely available, all can be channelized for cost

eff ective production of this value added product, substantially lowering the media cost of Bti production when scale- up is attempted.

Results show biomass increase of up to 27% compared to control when pineapple juice was used as the main carbon source. Th e

toxicity improvements with fi sh-amino acid supplemented medium, shows considerable reduction in killing time of Aedes aegypti

larvae.

Session Introduction

Kathryn A Johnston

California State University, USA

Title: Inhibition of Lysyl oxidase in breast cancer cells by small-molecule inhibitors

Biography:

Kathryn A Johnston is a fourth–year Senior Student at California State University, Bakersfi eld and has worked in Dr. Lopez’s laboratory for the past two and a

half years. During this period, she has published three papers. Her work deals primarily with the inhibition and reduction of viability of breast cancer cells using

derivatized inhibitors of β-aminopropionitrile. She has presented her work as posters and invited talks at regional meetings, as well as national meetings of the

American Chemical Society.

Abstract:

Lysyl oxidase (LOX) is an extracellular matrix, copper-dependent, amine oxidase that catalyzes a key crosslinking step in

collagen and elastin. Th is enzyme has also been shown to play a role in promoting metastasis. Th e correlation between

high LOX activity and cancer metastasis is strong enough that upregulated LOX activity can be used as a diagnostic marker for

the severity of cancer in patients. β-aminopropionitrile is a known potent inhibitor of lysyl oxidase; however, this inhibitor is

not selective and, therefore, cannot be used as a therapeutic agent. β-aminopropionitrile has been derivatized using aromatic

sidechains and has been used to selectively target lysyl oxidase in breast cancer cells. Th e inhibitor LP-1-2 has been shown to

reduce breast cancer cell viability with a 100 μM dose and 72-hour incubation period. Th e eff ect on cell viability increased

with increasing amounts of inhibitor. Th e selective targeting of lysyl oxidase was verifi ed using western blot analysis and lysyl

oxidase activity assays. Th e activity assays showed that addition of increasing amounts of inhibitor decreased the activity of

lysyl oxidase. Th e highest level of inhibition detected was with lysyl oxidase isolated from cells treated with 5000 μM of LP-1-2

for 3 days, which decreased the activity three-fold as compared to lysyl oxidase isolated from untreated cells.

Brian Effer

University of La Frontera, Chile

Title: Design, construction and extracellular expression of L-asparaginase from Dickeya chrysanthemi in yeast

Biography:

Brian Eff er is a PhD candidate at the University of La Frontera and University of São Paulo in Cell and Molecular Biology and Biochemical and Pharmaceutical

Technology areas, respectively. He has published seven papers in reputed journals and has been serving as a referee in several journals.

Abstract:

L-asparaginase (L-ASNase) is an important enzyme used as a biopharmaceutical to treat acute lymphoblastic leukemia (ALL).

Currently there are two L-ASNase approved by FDA: native and of bacterial origin, both from E. coli and D. chrysanthemi.

Due to L-ASNase’s immunogenic eff ects, it is necessary to seek alternatives such as recombinant expression in yeast. Th is

expression system can provide extracelullar secretion and glycosilation process, which can decrease immunogenicity and

facilitate downstream process. We report the construction of three diff erent expression vectors in order to obtain extracelullar

L-ASNase from D. chrysanthemi using eukaryotic exrpression system. asnB gene from D. chrysanthemi was cloned in pJAG-s1

plasmid in fusion with endogenous signal sequence (SS), that addresses protein to bacterial periplasm, and with or without

histidine tag (His). SuperMan5 yeast strain was transformed with pJAG-s-asnB constructs in order to be able to express the

recombinant protein. Aspartic acid β-hydroxamate method was applied for activity determination of L-ASNase recombinant

in culture supernatants. When both SS and His-tag were removed (expression of mature protein), protein expression and

secretion process were improved considerably compared to other constructions, indicating that for this gene, additional

structures added to the recombinant protein may interfere with the expression, fi nal enzyme activity and cell secretion.

Purifi cation processes are being executed.

Short S

Universidad de La Frontera, Chile

Title: Study of the potential use of antifreeze proteins of Deschampsia antarctica in the cryopreservation of Salmo salar spermatozoa

Biography:

Short S completed her Biotechnology Engineering at Universidad de La Frontera and started her Doctoral studies in Applied Cellular and Molecular Biology at

the Universidad de La Frontera. She is currently TA of Enzymology, Protein Structure and Immunology at the same institution. She has published fi ve articles in

reputed journals.

Abstract:

Cryopreservation allows to preserve genetic resources in aquatic species, such as Atlantic salmon (Salmo salar). However,

freezing may cause cell damage aff ecting the sperm quality. New procedures including antifreeze proteins (AFPs) seem

to improve sperm quality aft er cryopreservation. AFPs have the ability to bind to ice crystals inhibiting their growth, and ice

recrystallization (IRI) in vitro. Deschampsia antarctica is a freezing tolerante vascular plant species (LT50 -27°C) exhibiting

apoplastic antifreeze activity. We hypothesize that AFPs from D. antarctica favor the sperm quality of cryopreserved S.

salar spermatozoa. Th e aim of this work is to evaluate cryoprotection of AFPs from D. antarctica in S. salar spermatozoa.

Cryopreservation of S. salar spermatozoa has been made with a standard freezing medium (C+) and diff erent treatments with

protein extracts (20 μg/ml) of D. antarctica supplemented with permeating, DMSO 1.3 M, glucose 0.3 M, and non-permeating,

BSA 2% w/v cryoprotectants. Post-thawing plasma membrane integrity (PMI) by SYBR-14/PI and mitochondrial membrane

potential (MMP) by JC-1 markers were assessed using fl ow cytometry. Th awed cells in the presence of protein extracts from

D. antarctica without BSA maintained PMI as well as C+ and showed signifi cant diff erences respect to the other treatments.

Th e percentage of cells thawed with protein extracts of D. antarctica and with cryoprotectants showed higher MMP than C+.

While, treatments without permeating and non-permeating cryoprotectants maintained a similar MMP to C+. AFPs from

D. antarctica showed a cryoprotective eff ect in S. salar spermatozoa and these would act as non-permeating cryoprotectant,

replacing BSA in standard freezing medium.

Farías J G

Universidad de La Frontera, Chile

Title: Characterization of antifreeze activity in apoplastic extract of Deschampsia antarctica

Biography:

Farías J G is the Associate Professor and Director of the Chemical Engineering Department, Universidad de La Frontera. His research interest is in Pharmaceutical

Biotechnology, focusing on Molecular Therapeutics and Drugs Production. He has published 51 articles in reputed journals.

Abstract:

Deschampsia antarctica Desv. is a vascular plant species that colonized maritime Antarctica exhibiting extreme freezing

tolerance (-27°C). Th is has been associated with apoplastic antifreeze activity. Antifreeze proteins (AFPs) have the ability

to bind to the growing surface of ice crystals inhibiting their growth; however, this activity has been poorly characterized in

this species. Th erefore, the aim of this work is to characterize the antifreeze activity of apoplastic extracts from D. antarctica.

To understand how this plant can tolerate freezing temperatures year-around, and in order to evaluate the potential antifreeze

activity of apoplastic proteins from D. antarctica as future applications, experiments have been developed in cold-acclimated

and non-aclimated plants. To identify the best apoplastic proteins accumulation aft er plant cold-acclimation, apoplastic

extracts were quantifi ed every four days for 21 days of low temperature exposure. Antifreeze activity was determined by ice

recrystallization inhibition (IRI), thermal hysteresis activity (TH) and ice crystal growth in dilution series of apoplastic extracts.

Th e results indicate that the minimum IRI activity was evident in extracts with a concentration equal to 0.005 μg/μl at coldacclimated

condition, while in non-aclimated plants the IRI activity was lost at 0.05 μg/μl. At concentration equal to 2.5 μg/μl,

ice crystals showed a bipyramid shape and a TH equal to 0.4°C. In conclusion, we observed that cold-acclimation increased

apoplastic antifreeze activity, obtaining higher IRI but low TH in these apoplastic extracts. Th is high IRI is remarkable and

further studies are needed to characterize the apoplastic extract to associate this activity to apoplastic antifreeze proteins which

could be of interest for later studies as a cryoprotectant.

Shahid ullah

Shenzhen University, China

Title: Computer aided screening of mangrove ecosystem derived compound against acetyl-cholinesterase

Biography:

Shahid ullah is from Shenzhen University, China.

Abstract:

Alzheimer’s disease (AD) is considered as the most common type of dementia among older people. Almost 9 million

people are suff ering from AD in china and increasing with the course of time. Currently many diff erent herbs are used

for the treatment of AD including six Flavors Rehmannia Pills , Gastrodia and Uncaria Drink. It is been suggested that some

Acetyl-cholinesterase inhibitors induced molecular and cellular change that directly infl uence AD pathogeneses. In our study

literature search was perform to fi nd Mangrove eco-system phytochemical structures by using Builder soft ware implemented

in Molecular operating environment (MOE 2009). Acetyl-cholinesterase (PDB ID 1EVE) structure with bound ligand was

retrieved from protein data bank. Molecular docking was performed by triangular matcher placement method and rescore

by London dG parameter. Th e crystal structure has bound ligand which was active against acetyl-cholinesterase. It can be

concluded by docking analysis of diff erent compounds that mangrove ecosystem compound may serve as good inhibitors

against Acetyl-cholinesterase