Bioinformatically detectable group of novel regulatory...

Details Bioinformatically detectable group of novel regulatory... Bioinformatically detectable group of novel regulatory...

2004-04-02

2010-11-30

Wollenberger, Louis (Department: 1635)

Organic compounds -- part of the class 532-570 series

Organic compounds

Carbohydrates or derivatives

C536S023100

Reexamination Certificate

active

07842800

ABSTRACT:
The present invention relates to a first group of novel bacterial and human associated oligonucleotides, here identified as Genomic Address Messenger or GAM oligonucleotide, and a second group of novel operon-like bacterial and human polynucleotides, here identified as Genomic Record or GR polynucleotide. GAM oligonucleotides selectively inhibit translation of known ‘target’ genes, many of which are known to be involved in various bacterial diseases. Nucleic acid molecules are provided respectively encoding 6444 GAM precursors oligonucleotides, and 726 GR polynucleotides, as are vectors and probes both comprising the nucleic acid molecules, and methods and systems for detecting GAM oligonucleotides and GR polynucleotides and specific functions and utilities thereof, for detecting expression of GAM oligonucleotides and GR polynucleotides, and for selectively enhancing and selectively inhibiting translation of the respective target genes thereof.

REFERENCES:
patent: 5541308 (1996-07-01), Hogan et al.
patent: 7300788 (2007-11-01), Matsuzaki et al.
patent: 2005/0182005 (2005-08-01), Tuschl et al.
Krutzfeldt et al. (2006) Nature Genetics 38:514-519.
Bentwich et al. (2005) FEBS Lett. 579:5904-5910.
Martin et al. (2007) J. Biosci. 32:1049-1052.
Maziere et al. (2007) Drug Discovery Today 12:452-458.
Smalheiser et al. (2006) Methods Mol. Biol. 342:115-127.
Bahram et al. (1996) Immunogenetics 44:80-81.
Buck et al (BioTechniques 27: 528-536, 1999).
Kim et al. (1996) “Construction and characterization of a human bacterial artificial chromosome library” Genomics 34:213-218.
GenBank Accession No. AC—011453 “Homo sapienschromosome 19 clone CTC-339O9, complete sequence”, as published online Jul. 14, 2002, retrieved from the Nation Center for Biotechnology Information [online] on Sep. 17, 2008 at ncbi.nlm.nih.gov/entrez.
Online publication at [http://]genome.chop.edu/access/pages/repository/data/chr19/element—to—clone/element—to—clone.txt, retrieved Sep. 17, 2008.
The International Human Genome Sequencing Consortium (2001) “Initial sequencing and analysis of the human genome” Nature 409:860-921.
Scherr et al. (2003) Cell Cycle 2:3, pp. 251-257.
Cullen (2004) “Derivation and function of small interfering RNAs and microRNAs” Viral Res. 102:3-9.
Brown (1998) “In situ hybridization with riboprobes: An overview for veterinary pathologists” Vet. Pathol. 35:159-167.
Bauer S, et al. Science, 1999;285:727-9.
Doench JG and Sharp PA. Genes Dev, 2004,18(5):504-11.
Lau NC, et al. Science, 2001;294:858-62.
Lagos-Quintana M, et al. Science, 2001;294:853-8.
Moss EG, et al. Cell, 1997;88:637-46.
Reinhart BJ, et al. Nature, 2000;43:901-6.
Slack FJ, et al. Mol Cell, 2000;5:659-69.
Wightman B, et al. Cell, 1993;75:855-62.
Lai EC, Micro RNAs are complimentary to 3′ UTR sequence motifs that mediate negative post-transcriptional regulation. Nature Genetics 2002;30:363-4.
Enright AJ, MicoRNA targets in Drosophila, Genome Biology 2003;5:R1.
Lewis BP, Prediction of Mammalian MicroRNA Targets, Cell 2003;115:787-98.
Stark A, Identification of Drosophila MicroRNA Targets, PLoS Biology 2003;1(3):397-409.
Lai EC, Predicting and validating microRNA targets, Genome Biology 2004;5:115.
Vella MC, Architecture of a validated microRNA::target interaction, Chemistry & Biology 2004;11:1619-23.
Brennecke J, Principles of MicroRNA-target recognition, PLoS Biology 2005;3(3):e85.
Lim LP, Microarray analysis shows that some microRNAs downregulate large numbers of target mRNAs, Nature 2005;433(7027):769-73.
Busche A, Natural killer cell-mediated rejection of experimental human lung cancer by genetic overexpression of major histocompatibility complex class I chain-related gene A, Human Gene Therapy 2006;17:135-46.
Scherr et al. Lentivirus-mediated antagomir expression for specific inhibition of miRNA function. Nucleic Acids Res. 2007;35(22):e149.
Stern-Ginossar, N. et al. Human microRNAs regulate stress-induced immune responses mediated by the receptor NKG2D. Nature Immunology, 2008;9(9):1065-73.

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