Noorunnisa Begum scite author profile

Background: Pistacia chinensis subsp. integerrima (J. L. Stewart ex Brandis) Rech. f. belongs to family Anacardiaceae, is well known for usage of galls in traditional medicine. The galls in the apical meristem of plants are induced by aphid Baizongia pistaciae L infestation. The Pistacia galls are used in Ayurvedic formulations for the treatment of cough and respiratory diseases, loss of appetite, dyspeptic vomiting and dysentery. The drastic decrease in the gall formation in recent decades is possibly due to climate change or human interventions, making it an important species from conservation point of view. There is not much work carried out at molecular level to understand the gall development. In this study, we obtained molecular insight on insect and plant through genomic, transcriptomic and proteomic approaches. Results: We sequenced the whole genome of Pistacia genome using Illumina sequencing platform. The assembly genome size of Pistacia was 549 Mb with 80688 scaffolds at N50 = 12607 nts. A total of 51290 genes were from Pistacia genome annotation. The transcriptome analysis revealed of 76186 and 46327 transcripts from gall and leaf, respectively. The ethylene responsive transcription factor families were induced abundantly in galls including GATA, bHLH, MYB, BZIP, Trihelix, MADS, B3 domain. In addition, we have also obtained highly expressed genes in gall for biosynthesis of secondary metabolites, plant-aphid interactions, stress responses, phytohormone signal transduction and terpene biosynthesis. We have identified 21 proteins against Cajanus cajan , 10 proteins against Arabidopsis thaliana and 14 proteins against Drosophila melanogaster . We also identified abundant peptides for actin and tubulin of aphid in the gall tissue. Conclusion: This study provides a basis for the understanding of the genes expressed in gall when compared to leaf and also genes required for gall induction and development. We hypothesed that actin and microtubule proteins are from aphids origin as we found that transcript TRINITY_DN180182_c0_g1_i1 mapped to Acyrthosiphon pisum tubulin beta-1 (Tub1), mRNA with 75 % homology.

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Systematic Approach and Ethno Botanical Importance of Plants - Sugali Tribe inhabitants of Adilabad and Komaram Bheem Asifabad Districts, Telangana State, India

Priya

Begum

Bheemalingappa

et al. 2023

ejtas

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The preliminary investigations of Systematic Approach and Ethno Botanical Importance of Plants used by Sugali Tribe inhabitants of Adilabad and Komaram Bheem Asifabad district, Telangana State, India with their recipes, preparation of drugs, administration, and usage form several centuries. The Sugali tribe possessing rich folklore information forms the prime source and exists scope to extend scientific research in further isolation and characterization of active principle involved in the pharmacological utility. The folklore claims were conducted and collaborated with phyto-chemical evidences of the respective crude drugs. Keeping in view of the fact potential source of medicinal plants of folklore origin need to be preserved and conserved. 74 crude drugs (species) belong to 63 genera and 29 families were collected based on folk-lore knowledge. The pattern of the plant use as per habitat (terrestrial, aquatic/epiphytes), habit (growth form), plant part (tissue) and taxonomic category (Systematically families), nativity and occurrence (wild/cultivated) were established.

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Ammonium Nickel Sulfate (Tuttons Salt) Mediated Rapid and Facile Synthesis of Schiff Base Under Environmental Friendly Condition

Musthaq¹,

Begum²,

Aziz³

et al. 2022

IJAR

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In the present study a rapid and facile method for the synthesis of schiff bases (3a-z & 3aa-af) has been developed by using Ammonium Nickel Sulfate (ANS) (Tuttons Salt) as catalyst. Further more, the reaction is selective as only benzaldehydes are reacted where as acetophenone failed to perform this reaction. The present method is very rapid with simple work up and gives the products in good to excellent yield. The reaction is totally carried out under environmentally friendly condition by using green solvent MeoH and water in 1:1 ratio. Thus it is anticipated that the present newly developed method will give ample chemical space to the chemist to prepare the Schiff bases in rapid and envirnmentaly benign conditions.

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A Physicochemical Analysis of Ground Water from Few Selected Areas of Maharashtra, India

Aziz

Baba

Begum

et al. 2021

JoWPPR

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