Simultaneous multiple allelic replacement in the malaria parasite enables dissection of PKG function

Konstantinos Koussis; Chrislaine Withers-Martinez; David A. Baker; Michael J. Blackman

doi:https://doi.org/10.26508/lsa.201900626

doi.org/10.26508/lsa.201900626

Simultaneous multiple allelic replacement in the malaria parasite enables dissection of PKG function

Konstantinos Koussis

9

,

Chrislaine Withers-Martinez

24

,

..., Michael J. Blackman

55

Life science alliance4.40

Volume: 3, Issue: 4, Pages: e201900626 - e201900626

Published: Mar 16, 2020

Abstract

Over recent years, a plethora of new genetic tools has transformed conditional engineering of the malaria parasite genome, allowing functional dissection of essential genes in the asexual and sexual blood stages that cause pathology or are required for disease transmission, respectively. Important challenges remain, including the desirability to complement conditional mutants with a correctly regulated second gene copy to confirm that observed...

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Paper Details

Title

Simultaneous multiple allelic replacement in the malaria parasite enables dissection of PKG function

DOI

doi.org/10.26508/lsa.201900626

Published Date

Mar 16, 2020

Journal

Life science alliance

Volume

3

Issue

4

Pages

e201900626 - e201900626

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