Litcius/Paper detail

Cryptosporidium Genomics — Current Understanding, Advances, and Applications

Fiifi Agyabeng‐Dadzie, Rui Xiao, Jessica C. Kissinger

2024Current Tropical Medicine Reports18 citationsDOIOpen Access PDF

Abstract

Abstract Purpose of Review Here we highlight the significant contribution that genomics-based approaches have had on the field of Cryptosp oridium research and the insights these approaches have generated into Cryptosporidium biology and transmission. Recent Findings There are advances in genomics, genetic manipulation, gene expression, and single-cell technologies. New and better genome sequences have revealed variable sub-telomeric gene families and genes under selection. RNA expression data now include single-cell and post-infection time points. These data have provided insights into the Cryptosporidium life cycle and host–pathogen interactions. Antisense and ncRNA transcripts are abundant. The critical role of the dsRNA virus is becoming apparent. Summary The community’s ability to identify genomic targets in the abundant, yet still lacking, collection of genomic data, combined with their increased ability to assess function via gene knock-out, is revolutionizing the field. Advances in the detection of virulence genes, surveillance, population genomics, recombination studies, and epigenetics are upon us.

Topics & Concepts

CryptosporidiumGenomicsParasitologyGenomic medicineData scienceBiologyComputational biologyMedicineGenomeComputer scienceZoologyGeneticsEcologyFecesGeneParasitic Infections and DiagnosticsEnterobacteriaceae and Cronobacter ResearchAmoebic Infections and Treatments