Učinak ampicilina i klorokina na humoralnu imunošku reakciju na goveđi albumin kapsuliran u liposome

Immune suppression resulting from chemoprophylaxis and potential drug interaction were investigated in experimental animals pre-medicated with ampicillin and chloroquine followed by immunization with bovine serum albumin bearing liposomes prepared by the reverse phase evaporation method. The prepared liposomes were evaluated for particle size, entrapment efficiency and in vitro release. Humoral immune response was measured in terms of systemic IgG antibody titre by the ELISA method. The present study showed that 7:3 molar ratio of soya phosphatidylcholine and cholesterol produced liposomes of mean diameter of 235.4 10.3 nm and entrapment efficiency of 41.3 3.2%. Ampicillin significantly (p < 0.05) decreased the antibody titre whereas chloroquine did not reduce the antibody titre significantly. The study will help in programming a new drug management and in characterization of vaccine-drug interaction.Na eksperimentalnim životinjama koje su prvo tretirane ampicilinom i klorokinom a zatim imunizirane goveđim serumskim albuminom s liposomima praćena je supresija imunološkog sustava i potencijalna interakcija lijekova. Liposomi su pripravljeni metodom reverzno-fazne evaporacije, a određena im je veličina čestica, količina supstancije koju mogu inkorporirati i oslobađanje in vitro. Humoralna imunološka reakcija praćena je određivanjem titra IgG antitijela ELISA metodom. Rezultati rada pokazuju da liposomi s fosfatidilkolinom iz soje i kolesterolom u molnom omjeru 7:3 imaju prosječni promjer 235.4 10.3 nm i sposobnost inkorporacije 41.3 3.2%. Ampicilin je značajno (p < 0.05) smanjio titar antitijela, a klorokin nije. Ovi će rezultati biti korisni u programiranju novog režima primjene lijekova i u praćenju interakcije između cjepiva i lijeka

Resistance gene cloning from a wild crop relative by sequence capture and association genetics

Disease resistance (R) genes from wild relatives could be used to engineer broad-spectrum resistance in domesticated crops. We combined association genetics with R gene enrichment sequencing (AgRenSeq) to exploit pan-genome variation in wild diploid wheat and rapidly clone four stem rust resistance genes. AgRenSeq enables R gene cloning in any crop that has a diverse germplasm panel

Molecular docking, molecular modeling, and molecular dynamics studies of azaisoflavone as dual COX-2 inhibitors and TP receptor antagonists

Designed multi-target ligand (DML) is an emerging strategy for the development of new drugs and involves the engagement of multiple targets with the same moiety. In the context of NSAIDs it has been suggested that targeting the thromboxane prostanoid (TP) receptor along with cyclooxygenase-2 (COX-2) may help to overcome cardiovascular (CVS) complications associated with COXIBs. In the present work, azaisoflavones were studied for their COX-2 and TP receptor binding activities using structure based drug design (SBDD) techniques. Flavonoids were selected as a starting point based on their known COX-2 inhibitory and TP receptor antagonist activity. Iterative design and docking studies resulted in the evolution of a new class scaffold replacing the benzopyran-4-one ring of flavonoids with quinolin-4-one. The docking and binding parameters of these new compounds are found to be promising in comparison to those of selective COX-2 inhibitors, such as SC-558 and celecoxib. Owing to the lack of structural information, a model for the TP receptor was generated using a threading base alignment method with loop optimization performed using an ab initio method. The model generated was validated against known antagonists for TP receptor using docking/MMGBSA. Finally, the molecules that were designed for selective COX-2 inhibition were docked into the active site of the TP receptor. Iterative structural modifications and docking on these molecules generated a series which displays optimum docking scores and binding interaction for both targets. Molecular dynamics studies on a known TP receptor antagonist and a designed molecule show that both molecules remain in contact with protein throughout the simulation and interact in similar binding modes.by Murtuza Hadianawala, Amarjyoti Das, Mahapatra Jitender, K. Yadav and Bhaskar Datt