Sana Jameel scite author profile

Expansion in whole genome sequencing and subsequent increase in antibiotic resistance targets have paved the way of high throughput qPCR (HT-qPCR) for analyzing hundreds of antimicrobial resistance genes (ARGs) in a single run. A meta-analysis of 51 selected studies is performed to evaluate ARGs abundance trends over the last 7 years. WaferGenTM SmartChip is found to be the most widely used HT-qPCR platform among others for evaluating ARGs. Up till now around 1000 environmental samples (excluding biological replicates) from different parts of the world have been analyzed on HT-qPCR. Calculated detection frequency and normalized ARGs abundance (ARGs/16S rRNA gene) reported in gut microbiome studies have shown a trend of low ARGs as compared to other environmental matrices. Disparities in the HT-qPCR data analysis which are causing difficulties to researchers in precise interpretation of results have been highlighted and a possible way forward for resolving them is also suggested. The potential of other amplification technologies and point of care or field deployable devices for analyzing ARGs have also been discussed in the review. Our review has focused on updated information regarding the role, current status and future perspectives of HT-qPCR in the field of antimicrobial resistance.

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Antimicrobial Resistance in the Environment

Waseem

Williams

Jameel

et al. 2018

Water Environment Research

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This review su mmarizes selected publications from 2017 highlighting the occurrence of antimicrobial resistance (AMR) genes in the environment with emphasis on the aquatic environment. The review also covers different treatment technologies being developed for AMR genes as an environmental contaminant. The progress made in the area of AMR gene databases and tools is also reviewed. Besides a brief introduction, the content is categorized into three main sections: i) Occurrence of AMR in the Environment, ii) Treatment technologies for AMR, and iii) AMR databases and tools.

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Recent Advances in Treatment Technologies for Antibiotics and Antimicrobial Resistance Genes

Waseem

Jameel²,

Ali

et al. 2020

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Testing promising genes for pre-selection for drought tolerance in potato

Jameel¹,

Demirel²,

Gökçe³

2019

Acta Hortic.

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Variable expression of Van der Woude syndrome in the same family

Ali¹,

Mahajan²,

Jameel³

et al. 2022

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Van der Woude syndrome is a rare congenital condition with autosomal dominant traits. This autosomal dominant syndrome had been reported to have a penetrance of 80% with variable expression.[1] This genetic disorder is characterized by the combination of lip pits, cleft lip with or without cleft palate, and cleft palate only. Even within the families, there is a wide variability of affected gene expressions. It is very important to establish the correct diagnosis so that genetic counseling can be recommended in such cases. Here, we report cases of Van der Woude syndrome in the same family having the same genetic inheritance with variable expression.

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Sana Jameel

Contributions and Challenges of High Throughput qPCR for Determining Antimicrobial Resistance in the Environment: A Critical Review

Antimicrobial Resistance in the Environment

Recent Advances in Treatment Technologies for Antibiotics and Antimicrobial Resistance Genes

Testing promising genes for pre-selection for drought tolerance in potato

Variable expression of Van der Woude syndrome in the same family

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