RMgmDB - Rodent Malaria genetically modified Parasites

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Summary

RMgm-52
Malaria parasiteP. berghei
Genotype
MutatedGene model (rodent): PBANKA_1349800; Gene model (P.falciparum): PF3D7_1335900; Gene product: thrombospondin-related anonymous protein | sporozoite surface protein 2 (sporozoite surface protein 2; SSP2; SSP-2; TRAP)
Details mutation: Mutations in both the A- and TSR-domain
Phenotype Sporozoite; Liver stage;
Last modified: 4 March 2010, 23:36
  *RMgm-52
Successful modificationThe parasite was generated by the genetic modification
The mutant contains the following genetic modification(s) Gene mutation
Reference (PubMed-PMID number) Reference 1 (PMID number) : 11927544
MR4 number
Parent parasite used to introduce the genetic modification
Rodent Malaria ParasiteP. berghei
Parent strain/lineP. berghei NK65
Name parent line/clone Not applicable
Other information parent line
The mutant parasite was generated by
Name PI/ResearcherK. Matuschewski, V. Nussenzweig, R. Menard
Name Group/DepartmentDepartment of Pathology, Kaplan Cancer Center
Name InstituteNew York New York University School of Medicine
CityNew York
CountryUSA
Name of the mutant parasite
RMgm numberRMgm-52
Principal nameAdo/TSR
Alternative name
Standardized name
Is the mutant parasite cloned after genetic modificationYes
Phenotype
Asexual blood stageNot different from wild type
Gametocyte/GameteNot different from wild type
Fertilization and ookineteNot different from wild type
OocystNot different from wild type
SporozoiteNormal numbers of midgut sporozoites are formed. Strongly decreased numbers of salivary gland sporozoites (<5% of wild type)).
Sporozoites show normal gliding motility. Sporozoites were not infective to rats (Sprague/Dawley). Adhesion to HepG2 cells in vitro was not affected. The sporozoites did not invade HepG2 cells in vitro.
Liver stageSporozoites were not infective to rats (Sprague/Dawley). Adhesion to HepG2 cells in vitro was not affected. The sporozoites did not invade HepG2 cells in vitro.
Additional remarks phenotype

Mutant/mutation
The mutant expresses a mutated form of TRAP (thrombospondin-related anonymous protein). In the mutated gene a conserved threonine (Thr126) in the A-domain is replaced by alanine, aiming at disrupting the adhesive function of the A-domain and the basic residues (256KIRKRK261 cluster) in the C-terminal cluster in the TSR-domain were changed to alanine residues.

Protein (function)
TRAP is a type 1 transmembrane protein, containing two adhesive domains in its extracellular portion, an A-domain of von Willebrand factor and a thrombospondin type I repeat (TSR, TSP). TRAP is located in the micronemes of sporozoites. The protein plays a role in the gliding motility of sporozoites and invasion of host cells as has been shown by analysis of mutant parasites lacking expression of TRAP(RMgm-47; RMgm-53).

Phenotype
Analysis of the phenotype of the mutant with a mutated A-domain and TSR domain show that both domains are not involved in gliding motility but play a role in entry into cells of both the salivary gland and the liver. It does not act as an adhesin. The role of the different domains of the protein in motility and invasion has been analysed in other mutant parasites expressing mutated forms of TRAP (see below).

Other mutants
P. berghei mutants have been generated with mutated cytoplasmic tails of TRAP (RMgm-54; RMgm-55; RMgm-56; RMgm-57; RMgm-149; RMgm-150; RMgm-151).
Other P. berghei mutants have been generated with mutated extracellular (adhesive) domains (A-domain: RMgm-48; RMgm-49; TSR domain: RMgm-50; RMgm-51.
A P. berghei mutant has been generated in which the endogenous P. berghei trap was replaced with (mutated forms of) P. falciparum trap (RMgm-58)


  Mutated: Mutant parasite with a mutated gene
Details of the target gene
Gene Model of Rodent Parasite PBANKA_1349800
Gene Model P. falciparum ortholog PF3D7_1335900
Gene productthrombospondin-related anonymous protein | sporozoite surface protein 2
Gene product: Alternative namesporozoite surface protein 2; SSP2; SSP-2; TRAP
Details of the genetic modification
Short description of the mutationMutations in both the A- and TSR-domain
Inducable system usedNo
Short description of the conditional mutagenesisNot available
Additional remarks inducable system
Type of plasmid/constructPlasmid single cross-over
PlasmoGEM (Sanger) construct/vector usedNo
Modified PlasmoGEM construct/vector usedNo
Plasmid/construct map
Plasmid/construct sequence
Restriction sites to linearize plasmid
Selectable marker used to select the mutant parasitepbdhfr
Promoter of the selectable markerpbdhfr
Selection (positive) procedurepyrimethamine
Selection (negative) procedureNo
Additional remarks genetic modificationThe construct used results in 'disruption of the wild type trap-gene and introduction of a full length mutated trap gene under control of the wild type regulatory (3'UTR, 5'UTR) sequences. In the mutated gene a conserved threonine (Thr126) in the A-domain is replaced by alanine, aiming at disrupting the adhesive function of the A-domain and the basic residues (256KIRKRK261 cluster) in the C-terminal cluster in the TSR-domain were changed to alanine residues.
Additional remarks selection procedure
Primer information: Primers used for amplification of the target sequences  Click to view information
Primer information: Primers used for amplification of the target sequences  Click to hide information
Sequence Primer 1
Additional information primer 1
Sequence Primer 2
Additional information primer 2
Sequence Primer 3
Additional information primer 3
Sequence Primer 4
Additional information primer 4
Sequence Primer 5
Additional information primer 5
Sequence Primer 6
Additional information primer 6