RMgmDB - Rodent Malaria genetically modified Parasites

Summary

RMgm-44
Malaria parasiteP. berghei
Genotype
DisruptedGene model (rodent): PBANKA_1002200; Gene model (P.falciparum): PF3D7_0404500; Gene product: 6-cysteine protein (P36p; Pb36p; P52)
Phenotype Liver stage;
Last modified: 12 February 2009, 13:21
  *RMgm-44
Successful modificationThe parasite was generated by the genetic modification
The mutant contains the following genetic modification(s) Gene disruption
Reference (PubMed-PMID number) Reference 1 (PMID number) : 16313615
MR4 number
Parent parasite used to introduce the genetic modification
Rodent Malaria ParasiteP. berghei
Parent strain/lineP. berghei ANKA
Name parent line/clone Not applicable
Other information parent line
The mutant parasite was generated by
Name PI/ResearcherT. Ishino, M. Yuda
Name Group/DepartmentSchool of Medicine
Name InstituteMie University
CityMie
CountryJapan
Name of the mutant parasite
RMgm numberRMgm-44
Principal namePbs36p(-)1; Pbs36p(-)2
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
SporozoiteNot different from wild type
Liver stageGliding motility is similar to wild type sporozoites. Hepatocyte traversal activity in vitro (HepG2) was higher than of wild type sporooites (~5 times higher). Hepatocyte invasion of mutant sporozoites was significantly decreased (~8% of that of wildtype). Liver stage development is strongly impaired and parasites do not develop into the schizont stage. Infectivity of sporozoites as measured by infection of rats (Wistar) by intravenous inoculation of sporozoites was strongly reduced (3000 times compared to wildtype).
Additional remarks phenotype

Mutant/mutation
The mutant lacks expression of the P36p protein.

Protein (function)
P36p is a member of a small family of proteins, the 6-cysteine (cys) family of (surface) proteins (Thompson J. et al., Mol. Biochem. Parasitol. (2001)118, 147-54). The proteins are characterised by domains of roughly 120 amino acids in size that contain six positionally conserved cysteines (6-cys). Although some species of Plasmodium (may) contain unique members of the 6-cys family, ten members have been identified that are conserved both in structure as well as in genome organisation throughout the genus. Some of the conserved 6-cys proteins are encoded by genes that form paralogous gene-pairs which are closely linked in the genome separated by less then 2 kb of intergenic region. Most members have a GPI anchor and are predicted membrane surface proteins whereas others appear to be secreted and most members are expressed in a discrete stage-specific manner in gametocytes, sporozoites or merozoites.
A paralogue of the p36p gene, p36 (PB000892.00.0; pbs36), is located in the genome next to p36p (in tandem).

Phenotype
The phenotype analysis demonstates a role of this protein in liver stage development. In several aspects the phenotype of this mutant is slightly different from the phenotype of other P. berghei mutants lacking expression P36p (see RMgm numbers provided below).

Other mutants
An independent P. berghei mutant has been generated that lacks expression of this protein (RMgm-40).
A P. berghei mutant has been generated that lacks expression of this protein and in addition expresses the reporter protein GFP constitutively throughout development (RMgm-41).
A P. berghei mutant (RMgm-42) has been generated that lacks the expression of not only this protein but also its paralogue P36 (PB000892.00.0; pbs36).
A P. yoelii mutant (RMgm-43) has been generated that lacks the expression of not only this protein but also its paralogue P36 (PY01341; p36).
In P. falciparum a mutant has been generated lacking this protein (PFD0215c; van Schaijk et al., (2008) PloS ONE 3(10):e3549). The 'arrested' phenotype of liver stage of this P. falciparum mutant in primary human hepotocytes is similar to the phenotype of the P. berghei mutant.


  Disrupted: Mutant parasite with a disrupted gene
Details of the target gene
Gene Model of Rodent Parasite PBANKA_1002200
Gene Model P. falciparum ortholog PF3D7_0404500
Gene product6-cysteine protein
Gene product: Alternative nameP36p; Pb36p; P52
Details of the genetic modification
Inducable system usedNo
Additional remarks inducable system
Type of plasmid/construct usedPlasmid double cross-over
PlasmoGEM (Sanger) construct/vector usedNo
Modified PlasmoGEM construct/vector usedNo
Plasmid/construct map
Plasmid/construct sequence
Restriction sites to linearize plasmid
Partial or complete disruption of the geneComplete
Additional remarks partial/complete disruption
Selectable marker used to select the mutant parasitepbdhfr
Promoter of the selectable markerpbdhfr
Selection (positive) procedurepyrimethamine
Selection (negative) procedureNo
Additional remarks genetic modification
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 15′-AAAGAGCTCACGCTCCAAATCCATAAATAT-3′
Additional information primer 1
Sequence Primer 25′-AAAGGATCCACGAAATTTGGATTCATTTGC-3′
Additional information primer 2
Sequence Primer 35′-AAACTCGAGTACCCCATATTCATCTAAAGAC-3′
Additional information primer 3
Sequence Primer 45′-TAGTCTGTGAATTTGTAGTGGC-3′
Additional information primer 4
Sequence Primer 5
Additional information primer 5
Sequence Primer 6
Additional information primer 6