Литература по гомеобокс-содержащим генам

Acampora D., Esposito M., Faiella A., Pannese M., Migliaccio E., Morelli F., Stornaiouolo A., Nigro V., Simeone A., Boncinelli E. (1989). The human Hox gene family. Nucl.Acids Res., 17: 10385-10404.

Arcioni L., Simeone A., Guazzi S., Zappavigna V., Boncinelli E., Mavilio F. The upstream region of the human homeobox gene HOX 3D is a target for regulation by retinoic acid and HOX homeoproteins. EMBO Journ., 1992, 11, 265-277.

Awgulewitsch A., Bieberich C.J., Bogarad L., Shashikant C., Ruddle F.H. Structural analysis of the Hox-3.1 transcription unit and the Hox-3.2 - Hox-3.1 intragenic region. PNAS USA, 1990, 87, 6428-6432.

Bieberich C.J., Utset M.F., Awgulewitsch A., Ruddle F.H. Evidence for positive and negative regulation of the Hox-3.1 gene. PNAS USA, 1990, 87, (21), 8462-8466.

Brockes J. (1991). We may not have a morphogen. Nature, 350: 15.

Center E.M. Postaxial polydactyly in the mouse. J.Hered., 1955, V.46, No 3, P.144-148.

Chisaka O., Capecchi M.R. (1991). Regionally restricted developmental defects resulting from targeted disruption of the mouse homeobox gene Hox-1.5. Nature, 350: 473-479.

Chuong C.-M., Oliver G., Ting S.A., Jegalion B.G., Chen H.M., De Robertis E.M. (1990). Gradients of homeoproteins in developing feather buds. Development, 110: 1021-1030.

Coelho C.N.D., Sumoy L., Rodgers B.J., Davidson D.R., Hill R.E., Upholt W.B., Kosher R.A. Expression of the chicken homeobox-containing gene Ghox-8 during embryonic chick limb development. Mech.Devel., 1991, V.34, No2-3, P.143-154.

Coelho C.N.D., Upholt W.B., Kosher R.A. Role of the chicken homeobox-containing genes GHox-4.6 and GHox-8 in the specification of positional identities during the development of normal and polydactylous chick limb buds. Development, 1992, 115, (2), 629-637.

Dolle P., Duboule D. (1989). Two gene members of the murine HOX-5 complex show regional and cell-type specific expression in developing limbs and gonads. The EMBO Journ., 8: 1507-1515.

Dolle P., Ispisua-Belmonte J.-C., Renucci A., Falkenstein H., Duboule D. (1989). Coordinate expression of the murine Hox-5 complex homeo box-containing genes during limb pattern formation. Nature, 342: 767-772.

Dolle P., Ispisua-Belmonte J.-C., Brown J.M., Tickle C., Duboule D. HOX-4 genes and the morphogenesis of mammalian genitalia. Genes Dev., 1991, 5, 10, 1767-1776.

Duboule D., Boncinelli E., De Robertis E., Featherstone M., Lonai P., Oliver G., Ruddle F.H. (1990). An up-date of mouse and human Hox genes nomenclature. Genomics, 7: 458-459.

Erselius J.R., Goulding M.G., Gruss P. (1990). Structure and expression of the murine Hox-3.2 gene. Development, 110: 629-642.

Forsthoefel P.F. The embryological development of the skeletal effects of the luxoid gene in the mouse, including its interactions with the luxate gene. J.Morphol., 1959, V.104, No 1, P.89-141.

Forsthoefel P.F. The embryological development of the effects of Strong's luxoid gene in the mouse. J.Morphol., 1963, V.113, No 3, P.427-451.

Frohman M.A., Martin G.R., Cordes S.P., Barsh G.S. Altered rhombomere-specific gene expression in the mouse segmentation mutant, Kreisler. preprint, 1992, 12p.

Frohman M.A., Martin G.R. Isolation and spatial analysis of Hox-4.9, a new murine labial subfamily members are expressed similarly only early in anteroposterior axis formation. preprint, 1992, 24 p.

Galliot B., Dolle P., Vigneron M., Featherstone M., Baron A., Duboule D. (1989). The mouse Hox-1.4 gene: primary structure, evidence for promoter activity and expression during development. Development, 107: 343-359.

Gaunt S.J. Expression patterns of mouse HOX genes: Clues to an understanding of developmental and evolutionary strategies. BioEssays, 1991, 13, 10, 505-513.

Gaunt S.J., Krumlauf R., Duboule D. (1989). Mouse homeo- genes within a subfamily, Hox-1.4, -2.6 and -5.1, display similar anteroposterior domains of expressions in embryo, but show stage- and tissue-dependent differences in their regulation. Development, 107: 131-141.

Gaunt S.J., Singh P.B. (1990). Homeogene expression patterns and chromosomal imprinting. Trends in Genetics, 6: P.208-212.

Goetinck P.F. Studies of limb morphogenesis. III Experiments with the polydactylous mutant Eudiploidia. Devl.Biol., 1964, V.10, No 1, P.71-91.

Goetink P.F., Abbott U.K. Studies of limb morphogenesis. I. Experiments with the polydactylous mutant, talpid . J.Exp.Zool., 1964, V.155, No2, P.161-170.

Graham A., Maden M., Krumlauf R. The murine Hox-2 genes display dynamic dorsoventral patterns of expression during central nervous system development. Devl., 1991, 112, 255-264.

Graham A., Papalopulu N., Krumlauf R. (1989). The murine and Drosophila homeobox gene complexes have common features of organization and expression. Cell, 57: 367-378.

Green M.C. Luxoid - a new heridity leg and foot abnormality. J.Hered., 1955, V.46, No 3, P.91-99.

Hill R.E., Jones P.F., Rees A.R., Sime C.M., Justice M.J., Copeland N.G., Jenkins N.A., Graham E., Davidson D.R. A new family of mouse homeo box-containing genes: molecular structure, chromosomal location, and developmental expression of Hox-7.1. Genes Dev., 1989, 3, 26-37.

Hinchliffe J.R. Evolutionary aspects of the developmental mechanisms underlying the patterning of the pentadactyl limb sceleton in birds and other tetrapods. In: Trends Vertebr. Morphol: Proc.2nd Int.Symp.Vert.Morphol., Viena, 1986, Stuttgart, New York, 1989, P.226-229.

Holland P. Homeobox genes in vertebrate evolution, BioEssays, 1992, 14, 4, 267-273.

Hunt P., Krumlauf R. Deciphering the Hox code: Clues to patterning branchial regions of the head. Cell, 1991, V.66, P.1075-1078.

Izpisua-Belmonte J.-C., Dolle P., Renucci A., Zappavigna V., Falkenstein H., Duboule D. (1990). Primary structure and embryonic expression pattern of the mouse Hox-4.3 homeobox gene. Development, 110: 733-745.

Izpisua-Belmonte J.-C., Tickle C. Dolle P., Wolpert L., Duboule D. (1991). Expression of the homeobox Hox-4 genes and the specification of position in chick wing development. Nature, 350: 585-589.

Izpisua-Belmonte J.-C., Duboule D. Homeobox genes and pattern formation in the vertebrate limb. Devl.Biol., 1992, 152, (1), 26-36.

Jaynes J.B., O'Farrell P.H. Activation and repression of transcription by homeodomain containing proteins that bind a common site. Nature, 1988, 336, (6201), 744-749.

Johnson D.R. Extra-toes: a new mutant gene causing multiple abnormalities in the mouse. J.Embryol.Exp.Morphol., 1967, V.17, part 3, P.543-581.

Jones F.S., Prediger E.A., Bittner D.A., De Robertis E.M. Cell adhesion molecules as targets for Hox genes: Neural cell adhesion molecule promoter activity is modulated by cotransfection with Hox-2.5 and -2.4. Proc.Nat.Acad. of Sci. USA, 1992, V.89, No6, P.2086-2090.

Krumlauf R. Evolution of the vertebrate HOX homeobox genes. BioEssays, 1992, 14, 4, 245-252.

Leid M., Kastner P., Lyons R., Nakshatri H., Saunders M., Zacharewski T., Chen J.-Y., Staub A., Garnier J.-M., Maden S., Chambon P. Purification, cloning and RXR identity of the HeLa cell factor with which RAR or TR heterodimerizes to bind target sequences efficiently. Cell, 1992, 68, (2), 377-395.

Lewis J., Martin P. (1989). Limbs: a pattern emerges. Nature, 342: 734-73.

Landauer W. Rudimentation and duplication of the radius in the duplicate mutant form of fowl. J.Genet., 1956, V.54, No 2, P.199-219.

Lewis E.B. A gene complex controling segmentation in Drosophila. Nature. 1978. V.276. P.565-570.

Lufkin T., Dierich A., LeMeur M., Mark M., Chambon P. Disruption of the Hox-1.6 homeobox gene results in defects in a region corresponding to its rostral domain of expression. Cell, 1991, V.66, P.1105-1120.

Maas R.L., Zeller R., Woychik R.P., Vogt T.F. and Leder P. Disruption of formin-encoded transcripts in two mutant limb deformity alleles. Nature, 1990, V.346, No6287, P.853-855.

Mackem S., Mahon K.A. (1991). Ghox-4.7: A chick homeobox gene expressed primarily in limb buds and limb-type differences in expression. Development, 112: 791-806.

Magli C.M., Barba P., Celetti A., De Vita G., Cillo C., Boncinelli E. Coordinate regulation of Hox genes in human hematopoietic cells. Proc,Nat.Acad.Sci. USA, 1991, V.88, No14, P.6348-6352.

Mahon K.A., Westphal H., Gruss P. (1988). Expression of homeo box gene HOX 1.1 during muse embryogenesis. Development. Suppl., 104: 187-195.

Meinhardt H. a bootstrap model for the proximodistal pattern formation in vertebrate limbs. J.Embriol.Exp.Morphol., 1983, V.76, P.139-146.

Mendelsohn C., Raberte E., Chambon P. Retinoid receptors in vertebrate limb development. Devl.Biol., 1992, 152, (1), 50-61.

Messerle K., Webster W.S. The classification and development of Cadmium-induced limb defects in mice. Teratology, 1982, V.25, No 1, P.61-70.

Miyagawa-Tomita S., Kitamoto T., Momma K., Takao A., Momoi T. Cellular retinoic acid binding protein type II was preferentially localized in medium and posterior parts of the progress zone of the chick limb bud. BBRC, 1992, 185, (1), 217-223.

Mock B.A., D'Hoostelaere L.A., Matthai R., Huppi K. A mouse homeobox gene, Hox-1.5, and the morphological locus, Hd, map to within 1cM on chromosome 6. Genetics, 1987, 116, 607-612.

Naruse I., Kameyama Y. Prevention of polydactyly manifestation in polydactyly Nagoya (pdn) mice by administration of cytosine arabinoside during pregnancy. Teratology, 1986, V.34, P.283-289.

Nishimoto T. (1988). The "BN2" gene, a regulator for the onset of chromosome condensation. BioEssays, 9: P.121-124.

Nohno T., Noji S., Koyama E., Muto K., Ohyama K., Myokai F., Kuroiwa A., Saito T., Taniguchi S. (1991). Involvement of the Chox-4 chicken homeobox genes in determination of anteroposterior axial polarity during limb development. Cell, 64: 1197-1205.

Noji S., Nohno T., Koyama E., Muto K., Ohyama K., Aoki Y., Tamura K., Ohsugi K., Ide K., Taniguchi S., Saito T. (1991). Retinoic acid induces polarizing activity but is unlikely to be a morphogen in the chick limb bud. Nature, 350: 83-86.

Ohsugi K., Ide H., (1986). Position specific binding of a monoclonal antibody in chick wing buds. Devl.Biol., 117: 676- 679.

Ohsugi K., Ide H., Momoi T. Temporal and spatial expression of a position-specific antigen, AV-1, in chick limb buds. Devl.Biol., 1988, V.130, No 2, P.454-463.

Oliver G., De Robertis E.M., Wolpert L., Tickle C. (1990). Expression of a homeobox gene in the chick wing bud following application of retinoic acid and grafts of polarizing region tissue. The EMBO Journ., 9: 3093-3099.

Papalopulu N., Lovele-Badge R., Krumlauf R. The expression of murine Hox-2 genes is dependent on the differentiation pathways and displays a colinear sensitivity to retinoic acid in F9 cells and Xenopus embryos. Nucl.Ac.Res., 1991, 19, 5497-5506.

Paro R. (1990). Imprinting a determined state into the chromatin of Drosophila. Trends in Genetics, 6: 416-421.

Pohl T.M., Mattei M.-G., Ruther U. Evidence for allelism of the recessive insertional mutation add axtra-toy (X ). Development, 1990, V.110, No9, P.1153-1157.

Renucci A., Zappavigna V., Zakany J., Ispisua-Belmonte J.-C., Burki K., Duboule D. Comparison of mouse and human HOX-4 complexes defines conserved sequences involved in the regulation of Hox-4.4. EMBO Journ., 1992, 11, 1459-1468.

De Robertis E.M., Morita E.A., Cho K.W.I. (1991). Gradient fields and homeobox genes. Development, 112: 669-678.

Robert B., Sassoon D., Jacq B., Gehring W., Buckingham M. Hox-7, a mouse homeo box gene with a novel pattern of expression during embryogenesis. EMBO j., 1989, 8, 91-100. Safaei, R., Prohazka, V., Detmer, K., Boncinelle, E., Lowrence, H. J. and Lorgman, C. Modulation of HOX 2 gene expression following differentiation of neural cell lines. Differentiation, 51, (1), 39-47, (1992).

Sander K. (1988). Studies in insect segmentation: from teratology to phenogenetics. Development, Suppl., 104: 112-121.

Schughart K., Bieberich C.J., Eid R., Ruddle F.H. (1991). A regulatory region from the mouse Hox-2.2 promoter directs gene expression into developing limbs. Development, 112: 807-811.

Scott J.P. The embryology of the guinea pig. II. The polydactylous monster. A new teras produced by the genes PxPx. J.Morphol., 1938, V.62, P.299-321.

Scott J.P. The embryology of the guinea pig. III. The development of the polydactylous monster. A case of growth accelrated at a particular period by a semi-dominant lethal gene. J.Exp.Zool., 1937, V.77, P.123-157.

Scott W.J. Pathogenesis of bromdeoxyuridine-induced polydactyly. Teratology, 1981, V.23, No 3, P.383-389.

Scott W.J., Ritter E.J., Wilson J.G. Studies in induction of polydactyly in rats with cytosine arabinoside. Devel.Biol., 1975, V.45, No1, P.103-111.

Scott W.J., Ritter E.J., Wilson J.G. Delayed appearance of ectodermal cell death as a mechanism of polydactyly induction. J.Embryol.Exp.Morphol., 1977, V.42, P.93-104.

Scott W.J., Ritter E.J., Wilson J.G. Ectodermal and mesodermal cell death patterns in 6-mercaptopurine riboside-induced digital deformities. Teratology, 1980, V.21, No 3, P.271-279.

Simeone A., Acampora D., Arciori L., Andrews P.W., Boncinelli E., Movilio F. (1990). Sequential activation of HOX 2 homeobox genes by retinoic acid in human embryonal carcinoma cells. Nature, 346: 763-766.

Simeone A., Acampora D., Nigro V., Faiella A., D'Esposito M., Stornaiouolo A., Mavilio F., Boncinelli E. Differential

Ссылки: