Embryonic expression of the single Tribolium engrailed homolog.

We have cloned and sequenced the single Tribolium homolog of the Drosophila engrailed gene. The predicted protein contains a homeobox and several domains conserved among all engrailed genes identified to date. In addition it contains several features specific to the invected homologs of Bombyx and Drosophila, indicating that these features most likely were present in the ancestral gene in the common ancestor of holometobolous insects. We used the cross-reacting monoclonal antibody, 4D9, to follow the expression of the Engrailed protein during segmentation in Tribolium embryos. As in other insects, Engrailed accumulates in the nuclei of cells along the posterior margin of each segment. The first Engrailed stripe appears as the embryonic rudiment condenses. Then as the rudiment elongates into a germ band, Engrailed stripes appear in an anterior to posterior progression, just prior to morphological evidence of the formation of each segment. As in Drosophila (a long germ insect), expression of engrailed in Tribolium (classified as a short germ insect) is preceded by the expression of several homologous segmentation genes, suggesting that similar genetic regulatory mechanisms are shared by diverse developmental types.

[1]  A. Joyner,et al.  Cloning and sequence comparison of the mouse, human, and chicken engrailed genes reveal potential functional domains and regulatory regions. , 1992, Developmental genetics.

[2]  W. McGinnis,et al.  Isolation of a homoeo box-containing gene from the engrailed region of Drosophila and the spatial distribution of its transcripts , 1985, Nature.

[3]  W. Gehring,et al.  Comparison of homeobox-containing genes of the honeybee and Drosophila. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[4]  N. Patel,et al.  Expression of engrailed during segmentation in grasshopper and crayfish. , 1989, Development.

[5]  P. O’Farrell,et al.  The engrailed locus of drosophila: In situ localization of transcripts reveals compartment-specific expression , 1985, Cell.

[6]  Nipam H. Patel,et al.  Pair-rule expression patterns of even-skipped are found in both short- and long-germ beetles , 1994, Nature.

[7]  Susan J. Brown,et al.  Molecular genetic manipulation of the red flour beetle: Genome organization and cloning of a ribosomal protein gene , 1990 .

[8]  Ralf J. Sommer,et al.  Involvement of an orthologue of the Drosophila pair-rule gene hairy in segment formation of the short germ-band embryo of Tribolium (Coleoptera) , 1993, Nature.

[9]  L. Kauvar,et al.  The engrailed locus of drosophila: Structural analysis of an embryonic transcript , 1985, Cell.

[10]  R. Sommer,et al.  Evolutionary conservation pattern of zinc-finger domains of Drosophila segmentation genes. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[11]  A. Molven,et al.  A zebrafish engrailed‐like homeobox sequence expressed during embryogenesis , 1988, FEBS letters.

[12]  C. Nüsslein-Volhard,et al.  The origin of pattern and polarity in the Drosophila embryo , 1992, Cell.

[13]  D. Weisblat,et al.  Segmental expression of an engrailed-class gene during early development and neurogenesis in an annelid. , 1991, Development.

[14]  William McGinnis,et al.  Homeobox genes and axial patterning , 1992, Cell.

[15]  K. G. Coleman,et al.  The invected gene of Drosophila: sequence analysis and expression studies reveal a close kinship to the engrailed gene. , 1987, Genes & development.

[16]  P. O’Farrell,et al.  Development of embryonic pattern in D. melanogaster as revealed by accumulation of the nuclear engrailed protein , 1985, Cell.

[17]  J. Stuart,et al.  The Tribolium homeotic gene Abdominal is homologous to abdominal-A of the Drosophila bithorax complex. , 1993, Development.

[18]  M Hoch,et al.  Transcriptional control by Drosophila gap genes , 1992, Journal of Cell Science.

[19]  K. G. Coleman,et al.  Expression during embryogenesis of a mouse gene with sequence homology to the Drosophila engrailed gene , 1985, Cell.

[20]  P. Holland,et al.  Conservation of engrailed‐like homeobox sequences during vertebrate evolution , 1990, FEBS letters.

[21]  T. Humphreys,et al.  An engrailed class homeo box gene in sea urchins. , 1988, Gene.

[22]  P. Ingham,et al.  Boundaries and fields in early embryos , 1992, Cell.

[23]  H. Varmus,et al.  Identification of genes from pattern formation, tyrosine kinase, and potassium channel families by DNA amplification. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[24]  R. Marco,et al.  Genomic organization and developmental pattern of expression of the engrailed gene from the brine shrimp Artemia. , 1993, Development.

[25]  D. Weisblat,et al.  Cell lineage analysis of the expression of an engrailed homolog in leech embryos. , 1993, Development.

[26]  M. Westerfield,et al.  Coordinate embryonic expression of three zebrafish engrailed genes. , 1992, Development.

[27]  A. Elbetieha,et al.  Anterior determinants in embryos of Chironomus samoensis: characterization by rescue bioassay. , 1988, Development.

[28]  M. Akam,et al.  More than one way to slice an egg , 1992, Current Biology.

[29]  K. Matsuno,et al.  Molecular characterization and silk gland expression of Bombyx engrailed and invected genes. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[30]  K. Sander Specification of the Basic Body Pattern in Insect Embryogenesis1 , 1976 .

[31]  J. Sambrook,et al.  Molecular Cloning: A Laboratory Manual , 2001 .

[32]  Nipam H. Patel,et al.  Changing role of even-skipped during the evolution of insect pattern formation , 1992, Nature.