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1 velopment of the embryonic primitive ventral blood island.
2 a marked absence of erythrocytes in yolk sac blood islands.
3 method to the analysis of embryonic yolk sac blood islands.
4 ences for morphogenesis and formation of the blood islands.
5 tructures similar in appearance to embryonic blood islands.
6 tral type, such as lateral plate and primary blood islands.
7 press PECAM before the development of mature blood islands.
8 d some hematopoietic cells of differentiated blood islands.
9 l cells and their precursors in the yolk sac blood islands.
10 c changes with formation of the yolk sac and blood islands.
13 erythromyeloid progenitors in the posterior blood island and c-myb/cd41(+) cells in the ventral wall
14 l mesoderm, which contributes to the ventral blood island and primitive (yolk sac stage) hematopoiesi
17 angioblasts and the subsequent formation of blood islands and blood vessels by angioblasts in the co
19 rmal cells prior to the establishment of the blood islands and in the embryoid body (EB)-derived blas
20 learly present in the erythroblasts of early blood islands and of the fetal liver, but absent in the
22 ur results demonstrate that both the ventral blood islands and primitive blood routinely arise from a
23 used to determine the origin of the ventral blood islands and primitive blood, injection of either b
24 , we showed that some of the erythrocytes in blood islands and small vascular tubes were progeny of t
25 The earliest erythroblasts arise in yolk sac blood islands and subsequently enter the embryo proper t
26 Two regions of the vertebrate embryo, the blood islands and the dorsal lateral plate (DLP), partic
27 nesis as evidenced by a lack of recognizable blood islands and vascular channels and a reduction in t
28 molecule-1 (PECAM-1) during the formation of blood islands and vessels from clusters of extraembryoni
29 mals, showed that Gata4-/- ES cells can form blood islands and vessels when juxtaposed to visceral en
31 structures, including the chorion, yolk sac blood islands, and allantois appear to develop normally,
33 ved from these cell lines are unable to form blood islands, and express reduced levels of both PECAM1
34 logically unique cells that give rise to the blood islands, and then later within the hepatic primord
37 TA-2 mRNA expression is downregulated in VYS blood islands as terminal primitive erythroid differenti
38 cient to generate lacZ expression within the blood islands as well as the fetal liver during embryoni
39 Because Hhex is expressed in the developing blood islands at E7.0 in the endothelium of the developi
41 and vitelline veins in the anterior ventral blood island (aVBI), and to the endocardium of the heart
43 Light microscopic examination revealed free blood islands (BI) in the embryonic vitreous cavity (5.5
44 ecursor cells do indeed exist in the Xenopus blood island, but BMP signaling normally acts to constra
45 ng strategy, we demonstrate that circulating blood island-derived cells contribute to the genesis of
47 we find that precursor cells in the Xenopus blood island do not normally differentiate into ECs, sug
48 imitive hematopoiesis occurs in the yolk sac blood islands during vertebrate embryogenesis, where abu
49 d as angioblasts; (2) hematopoietic cells of blood islands express TAL1, but not Flk1; (3) vasculogen
51 AP domain is sufficient to reproduce ectopic blood island formation, cardiac defects, and overgrowth
52 ree stages of yolk sac vascular development (blood island formation, primary capillary plexus formati
57 ve receptor resulted in the expansion of the blood island-forming territory with a concomitant loss o
59 is expressed early in the developing ventral blood island in a pattern that anticipates that of later
62 n that zebrafish EMPs arise in the posterior blood island independently from hematopoietic stem cells
63 f ventral posterior mesoderm and the ventral blood islands, indicating that this negative regulation
64 ronous grafting of donor yolk sac containing blood islands into blood islands of headfold-stage host
65 indicates that the formation of the ventral blood island is more complex than previously thought and
66 hematopoietic and endothelial cells form in blood islands located between layers of visceral endoder
67 rly (embryonic days 8.0-9.5) in the yolk sac blood islands, no Epo expression can be detected in this
70 donor yolk sac containing blood islands into blood islands of headfold-stage host conceptuses provide
71 enesis and observed robust expression in the blood islands of the E8.5 yolk sac and in developing tis
72 Hex is transiently expressed in the nascent blood islands of the visceral yolk sac and later in embr
74 genesis, GMFG was expressed predominantly in blood islands of the yolk sac, where endothelial and hem
76 bryonic structures, including the allantois, blood islands of the yolk sack, primordial germ cells an
77 rs for both cell types are present in the YS blood islands, only primitive cells are formed in the YS
78 omyeloid progenitors (EMPs) in the posterior blood island (PBI) that arise independently of HSCs.
79 and blood cells are closely intermixed, and blood island precursor cells in the primitive streak exp
81 , contrary to predictions of this model, the blood islands remain ventrally restricted even in the ab
82 or FGF signaling in specifying somite versus blood island territories was observed as early as midgas
83 loid cells originate in the anterior ventral blood islands, the equivalent of the mammalian yolk sac,
85 ed this by sequestering erythroblasts in the blood islands, thereby lowering the hematocrit and reduc
86 factor Biklf is preferentially expressed in blood islands throughout zebrafish embryogenesis, markin
90 pg at the four-cell stage suppresses ventral blood island (VBI) formation, whereas expression of the
91 e other mesoderm fates, for example, ventral blood island (VBI), are specified at the ventral pole.
92 ne, which is highly expressed in the ventral blood island (VBI), cranial ganglia, and hatching and ce
93 hrocytes are derived solely from the ventral blood islands (VBI), while definitive hematopoietic cell
94 ne dephosphorylation during the formation of blood islands/vessels from clusters of extra-embryonic a
96 ity in mammalian development is the yolk-sac blood island, which originates from the hemangioblast.
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