Jens Jacob Hansen

Publications (2)13.17 Total impact

• Article: Single-nucleotide variations in the genes encoding the mitochondrial Hsp60/Hsp10 chaperone system and their disease-causing potential.

  Peter Bross, Zhijie Li, Jakob Hansen, Jens Jacob Hansen, Marit Nyholm Nielsen, Thomas Juhl Corydon, Costa Georgopoulos, Debbie Ang, Jytte Banner Lundemose, Klary Niezen-Koning, Hans Eiberg, Huanming Yang, Steen Kølvraa, Lars Bolund, Niels Gregersen
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  ABSTRACT: Molecular chaperones assist protein folding, and variations in their encoding genes may be disease-causing in themselves or influence the phenotypic expression of disease-associated or susceptibility-conferring variations in many different genes. We have screened three candidate patient groups for variations in the HSPD1 and HSPE1 genes encoding the mitochondrial Hsp60/Hsp10 chaperone complex: two patients with multiple mitochondrial enzyme deficiency, 61 sudden infant death syndrome cases (MIM: #272120), and 60 patients presenting with ethylmalonic aciduria carrying non-synonymous susceptibility variations in the ACADS gene (MIM: *606885 and #201470). Besides previously reported variations we detected six novel variations: two in the bidirectional promoter region, and one synonymous and three non-synonymous variations in the HSPD1 coding region. One of the non-synonymous variations was polymorphic in patient and control samples, and the rare variations were each only found in single patients and absent in 100 control chromosomes. Functional investigation of the effects of the variations in the promoter region and the non-synonymous variations in the coding region indicated that none of them had a significant impact. Taken together, our data argue against the notion that the chaperonin genes play a major role in the investigated diseases. However, the described variations may represent genetic modifiers with subtle effects.
  Journal of Human Genetics 02/2007; 52(1):56-65. · 2.57 Impact Factor
• Source

  Available from: ncbi.nlm.nih.gov

  Article: Hereditary spastic paraplegia SPG13 is associated with a mutation in the gene encoding the mitochondrial chaperonin Hsp60.

  Jens Jacob Hansen, Alexandra Dürr, Isabelle Cournu-Rebeix, Costa Georgopoulos, Debbie Ang, Marit Nyholm Nielsen, Claire-Sophie Davoine, Alexis Brice, Bertrand Fontaine, Niels Gregersen, Peter Bross
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  ABSTRACT: SPG13, an autosomal dominant form of pure hereditary spastic paraplegia, was recently mapped to chromosome 2q24-34 in a French family. Here we present genetic data indicating that SPG13 is associated with a mutation, in the gene encoding the human mitochondrial chaperonin Hsp60, that results in the V72I substitution. A complementation assay showed that wild-type HSP60 (also known as "HSPD1"), but not HSP60 (V72I), together with the co-chaperonin HSP10 (also known as "HSPE1"), can support growth of Escherichia coli cells in which the homologous chromosomal groESgroEL chaperonin genes have been deleted. Taken together, our data strongly indicate that the V72I variation is the first disease-causing mutation that has been identified in HSP60.
  The American Journal of Human Genetics 06/2002; 70(5):1328-32. · 10.60 Impact Factor