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Titre
Minimal bacterial genome
Revendications
  1. A set of protein-coding genes that provides the information required for growth and replication of a free-living organism under axenic conditions in a rich bacterial culture medium,
    wherein the set lacks at least 40 of the 101 protein-coding genes listed in Table 2, or functional equivalents thereof, wherein at least one of the genes in Table 4 is among the lacking genes;
    wherein the set comprises between 350 and 381 of the 381 protein-coding genes listed in Table 3, or functional equivalents thereof, including at least one of the genes in Table 5; and
    wherein the set comprises no more than 450 protein-coding genes.
  2. The set of claim 1, which lacks at least 55 of the genes listed in Table 2.
  3. The set of claim 1, which lacks at least 70 of the genes listed in Table 2.
  4. The set of claim 1, which lacks at least 80 of the genes listed in Table 2.
  5. The set of claim 1, which lacks at least 90 of the genes listed in Table 2.
  6. The set of any of claims 1-5, which comprises at least 360 of the genes listed in Table 3.
  7. The set of any of claims 1-5, which comprises at least 370 of the genes listed in Table 3.
  8. The set of any of claims 1-5, which comprises at least 380 of the genes listed in Table 3.
  9. A set comprising the set of any of claims 1-8, and further comprising genes encoding an ABC transporter for phosphate import, selected from the group consisting of (a) MG410, MG411 and MG412, and (b) MG289, MG290 and MG291, and functional equivalents thereof.
  10. A set comprising the set of any of claims 1-9, and further comprising a lipoprotein-encoding gene selected from the group consisting of MG185 and MG260, and functional equivalents thereof.
  11. A set comprising the set of any of claims 1-10, and further comprising a glycerophosphoryl diester phosphodiesterase gene selected from the group consisting of MG293 and MG385, and functional equivalents thereof.
  12. A set comprising the set of any of claims 1-11, and further comprising the 43 RNA-coding genes of Mycoplasma genitalium , or functional equivalents thereof.
  13. The set of any of claims 1-12, wherein the genes constitute a chromosome.
  14. The set of any of claims 1-13, wherein the genes are from Mycoplasma genitalium.
  15. A set comprising the set of any of claims 1-14, and further comprising at least one gene involved in hydrogen or ethanol production.
  16. The set of any of claims 1-15, which are in a free-living organism.
  17. The set of any of claims 1-15, which are in a free-living organism that is growing and replicating in a rich bacterial culture medium.
  18. The set of claim 17, wherein the rich bacterial culture medium is SP4.
  19. The set of any of claims 1-15, which are recorded on a computer readable medium.
  20. A free-living organism that can grow and replicate under axenic conditions in a rich bacterial culture medium, whose set of genes consists of the set of any of claims 1-15.
  21. The free-living organism of claim 20, wherein the rich bacterial culture medium is SP4.
  22. A method for determining the function of a gene, comprising inserting the gene into, mutating the gene in, or removing the gene from the free-living organism of claim 20 or 21, and measuring a property of the organism.
  23. A free-living organism that comprises the set of claim 15.
  24. A method of hydrogen or ethanol production, comprising growing the organism of claim 23 in a suitable medium such that hydrogen or ethanol is produced.
  25. The set of any of claims 1-15, wherein the genes constitute a library of DNA molecules.
  26. A method comprising combining a plurality of DNA molecules to create the library of claim 25.
  27. A method comprising combining all the DNA molecules of the library of claim 25 into an assembled DNA molecule.
  28. The method of claim 27, wherein the assembled DNA molecule is a genome.
Abrégé
The present invention relates, e.g., to a minimal set of protein-coding genes which provides the information required for replication of a free-living organism in a rich bacterial culture medium, wherein (1) the gene set does not comprise the 101 genes listed in Table 2; and/or wherein (2) the gene set comprises the 381 protein-coding genes listed in Table 3 and, optionally, one of more of: a set of three genes encoding ABC transporters for phosphate import (genes MG410, MG411 and MG412; or genes MG289, MG290 and MG291); the lipoprotein-encoding gene MG185 or MG260; and/or the glycerophosphoryl diester phosphodiesterase gene MG293 or MG385.
Brevets déposés connexes
Provisional application No. 60/725,295, filed on Oct. 12, 2005.
Déposants/Inventeurs
GLASS, John I. [US/US], Germantown MD (US)
SMITH, Hamilton O. [US/US], Reisterstown MD (US)
HUTCHISON, Clyde A. [US/US], Rockville MD (US)
ALPEROVICH, Nina Y. [US/US], Germantown MD (US)
ASSAD-GARCIA, Nacyra [US/US], Rockville MD (US)
Ayant-droit
J. Craig Venter Institute, Inc., Rockville MD 20850 (US)
Correspondance
VENABLE LLP, P.O. BOX 34385 WASHINGTON DC 20043-9998 (US)
Date d’enregistrement
12 oct. 2006
Date de publication
31 mai 2007
Numéro de dépôt
11546364
IPC
C07H 21/04
C12N 1/21
C12N 9/02
C12P 1/06
C12P 7/06
C40B 30/06
C40B 40/10
Classification des États-Unis
435006000
435161000
435169000
435189000
435252300
536023200