The Fox gene family in Xenopus laevis:FoxI2, FoxM1 and FoxP1 in early development.

We here describe the sequences and expression patterns of three new Fox (fork head box) transcription factors in Xenopus laevis embryos. xlFoxI2, another member of subclass I, is maternally transcribed. Zygotic transcripts are first detected during neurulation and become localised to the dorsal part of epibranchial placodes. xlFoxM1 like xlFoxP1 are the first members of subclasses M and P described in Xenopus. Both genes are maternally expressed and transcripts are found during early cleavage stages in the animal blastomeres. xlFoxM1 is strongly upregulated during neurula stages and transcripts are localised in the neuroectoderm. Later, expression is found in the spinal cord, the rhombencephalon, the retina and in the branchial arches. xlFoxP1 is activated during organogenesis and is mainly expressed in the brain, head mesenchyme and in the splanchnic layer of the lateral plate mesoderm.

Of Fox and Frogs: Fox (fork head/winged helix) transcription factors in Xenopus development.

Transcription factors of the Fox (fork head box) family have been found in all metazoan organisms. They are characterised by an evolutionary conserved DNA-binding domain of winged helix structure. In the South African clawed frog, Xenopus laevis, more than 30 Fox genes have been found so far. This review summarises our present knowledge regarding the general structure and common features of the fork head box and will then characterise Fox genes that have been described in Xenopus. Special attention was paid to the temporal and spatial expression patterns during early embryonic development. For some of these genes, the molecular mechanisms leading to their regulation after the onset of zygotic transcription are known. We also report on functional aspects including target gene regulation, cell or tissue specification and interference with the cell cycle. Finally, Fox proteins serve as mediators of signalling pathways and they might function as checkpoint molecules for the cross-regulatory interactions of different intracellular signal transduction chains.

The FoxO-subclass in Xenopus laevis development.

Transcription factors of the Fox (fork head box) family are involved in cellular specification and determination processes. Here, we report on the isolation and first characterisation of two members of the FoxO subclass in Xenopus laevis, xFoxO1 and xFoxO3. These sequences exhibit 68% (67%) and 69% (70%) identity to their mouse (human) orthologues, respectively. Serine and threonine residues, which are phosphorylated upon insulin signalling, are evolutionarily conserved from frogs to mammals. xFoxO1 and xFoxO3 genes are maternally transcribed, but transcripts disappear during early cleavage stages. Zygotic transcription of both genes starts at the late neurula stages and transcripts accumulate at the end of organogenesis. While maternal transcripts of both genes are found within the animal half of the early embryo, zygotic transcripts show distinct patterns. xFoxO1 expression is observed in the pronephros, within head mesenchyme in front of the eye, within the branchial arches and in the liver primordium. At the late neurula, xFoxO3 is found to be specifically expressed in the anterior neural plate and in neural crest cells. Later, expression of xFoxO3 is observed in a variety of organs and tissues, like the head, the branchial arches and the somites.

Isolation and developmental expression of Xenopus FoxJ1 and FoxK1.

xFoxJ1 and xFoxK1, two novel members of the fork head/winged helix family of transcription factors in Xenopus, have been identified by sequence homology to their mammalian orthologues. We here report the complete amino acid sequences of xFoxJ1, its pseudo-allelic version xFoxJ1', and of xFoxK1, the latter also comprising a fork-head-associated (FHA) domain. We have further analysed the temporal and spatial expression of both genes. xFoxJ1 transcripts were detected during gastrulation in the dorsal blastopore lip and in the animal half. A predominant feature of xFoxJ1 expression until the tailbud stage is its spotty pattern within the epidermis. xFoxK1 is maternally expressed and localized within the animal half during early cleavage stages. Zygotic transcription starts during neurulation and is initially restricted to neuroectoderm. As development proceeds, xFoxK1 is expressed in ectoderm- and mesoderm-derived tissues, like the branchial arches, brain, eye, otic vesicle, pronephros, somites and abdominal muscle precursors.

Sequence and expression of FoxB2 (XFD-5) and FoxI1c (XFD-10) in Xenopus embryogenesis.

We report on the temporal and spatial expression pattern of two novel genes of the Xenopus fork head/winged helix family, xFoxB2 and xFoxI1c. xFoxB2 is activated at the late blastula stage and first expressed within the dorsolateral ectoderm except for the organiser territory. During gastrulation, xFoxB2 is found in two ectodermal stripes adjacent to the dorsal midline. Expression is completely down-regulated during neurulation. However, two distinct sets of cells expressing xFoxB2 re-appear in the rhombencephalon of swimming tadpoles. xFoxI1c is initially expressed at the early neurula stage in an epidermal ring around the neural field. Subsequent expression is found to be increased, and is exclusively localised to placodal precursor cells. The placodal expression remains until stage 40, when it is restricted to a distinct region in the lateral body wall behind the gills.

Temporal and spatial expression patterns of FoxD2 during the early development of Xenopus laevis.

We have investigated the sequence and expression pattern of the Xenopus laevis FoxD2 gene, a member of the fork head/winged helix multigene family. The derived protein sequence is most closely related to FoxD2 factors known from other species. Maternal FoxD2 transcripts are degraded during early cleavage stages. Zygotic transcription is activated after the midblastula transition followed by a pronounced increase during neurulation. Whole mount in situ hybridisations reveal that FoxD2 is predominantly expressed in the paraxial mesoderm, but not within the myotome. In addition, FoxD2 transcripts are found within the migrating ventral abdominal muscle precursors, in cranial neural crest cells surrounding the eye and populating the second and third visceral arches as well as within restricted areas of the diencephalon. In hatched tadpoles, FoxD2 expression is also observed within the terminal part of the gut.