Vitellogenesis in Drosophila: sequestration of a yolk polypeptide/invertase fusion protein into developing oocytes

The mechanism of yolk deposition into developing oocytes of Drosophila was investigated by following the fate of a reporter protein fused to a vitellogenin, or yolk polypeptide (YP). Embryos were transformed with a hybrid gene consisting of the promotor and amino terminal 430 codons of the Yp2 gene fused to the cytoplasmic form of the invertase gene from the yeast Saccharomyces cerevisiae. RNA hybridization experiments with established lines of transformed flies showed that the hybrid gene was expressed in female fat bodies and ovaries but not in any male cells. Immunoblotting and endoglycosidase digestion showed that the hybrid protein was secreted from fat body cells via the secretory pathway, transported in hemolymph, and sequestered into developing oocytes. Transfusion experiments with hemolymph and pure invertase showed that sequestration of invertase depended on its attachment to YP. Immunocytochemistry demonstrated that the hybrid protein became localized in yolk granules as oocytes developed. Females homozygous for the fusion gene are generally sterile; their eggs containing the hybrid protein often collapse and their embryos fail to develop, suggesting that the structure of the yolk polypeptides is important for embryonic development. These experiments show that YP2 carries structural information sufficient to direct a reporter protein from fat body cells, through the hemolymph, and into the yolk granules of developing oocytes. This work provides a means of identifying the features of yolk polypeptides that are responsible for their deposition into yolk during oogenesis.     

Selective transport and packaging of the major yolk protein in the sea urchin

The major yolk protein of sea urchins is an iron-binding, transferrin-like molecule that is made in the adult gut. Its final destination though is the developing oocytes that are embedded in somatic accessory cells and encompassed by two epithelial layers of the ovary. In this study, we address the dynamics of yolk transport, endocytosis, and packaging during the vitellogenic phase of oogenesis in the sea urchin by use of fluorescently labeled major yolk protein (MYP). Incorporation of MYP into the accessory cells of the ovary and its packaging into yolk platelets of developing oocytes is visualized in isolated oocytes, ovary explants, and in whole animals. When MYP is introduced into the coelom of adult females, it is first accumulated by the somatic cells of the ovarian capsule and is then transported to the oocytes and packaged into yolk platelets. This phenomenon is specific for MYP and accurately reflects the endogenous MYP packaging. We find that oocytes cultured in isolation are endocytically active and capable of selectively packaging MYP into yolk platelets. Furthermore, oocytes that packaged exogenous MYP are capable of in vitro maturation, fertilization, and early development, enabling an in vivo documentation of MYP utilization and yolk platelet dynamics. These results demonstrate that the endocytic uptake of yolk proteins in sea urchins does not require a signal from their surrounding epithelial cells and can occur autonomous of the ovary. In addition, these results demonstrate that the entire population of yolk platelets is competent to receive new yolk protein input, suggesting that they are all made simultaneously during oogenesis.     

Vitellogenin-derived yolk proteins in a hybrid sturgeon, bester (Huso huso x Acipencer ruthenus): identification, characterization and course of proteolysis during embryogenesis

Vitellogenin (Vg) and its corresponding yolk protein (YP) products, YP1, YP2 and YP3, were isolated from serum of estrogen-treated hybrid sturgeon (bester; Huso huso X Acipencer ruthenus) and eggs from untreated fish, respectively. Vitellogenin had an apparent molecular mass of 580 kDa and appeared as two major bands corresponding to 180 kDa and 120 kDa after SDS-PAGE. Apparent molecular weights of YP1, YP2 and YP3 were 370 kDa, 88 kDa and 19 kDa, respectively. After SDS-PAGE, YP1 appeared as a main band of 110 kDa, while YP2 was resolved as a single band of 94 kDa and 29 kDa band under non-reducing and reducing conditions, respectively. Yolk protein 3 appeared as a diffuse band corresponding to 16 kDa and two faint bands below 14.4 kDa after SDS-PAGE. However, the 16 kDa band alone was observed after dephosphorylation with alkaline phosphatase. The course of cleavage of yolk proteins in bester embryos and alevins was observed by SDS-PAGE and Western blotting from fertilization onward. After hatching, the main 110 kDa band of YP1 was degraded into smaller peptides during development, while YP2 hardly showed any such structural changes. The amino acid compositions of purified yolk proteins indicated that YP1, YP2 and YP3 were bester lipovitellin, beta-component, and phosvitin, respectively.     

The major yolk proteins of higher Diptera are homologs of a class of minor yolk proteins in lepidoptera

In most oviparous animals, including insects, vitellogenin (Vg) is the major yolk protein precursor. However, in the higher Diptera (cyclorrhaphan flies), a class of proteins homologous to lipoprotein lipases called yolk polypeptides (YP) are accumulated by oocytes instead of Vg, which is not produced at all. Lepidopterans (moths) produce Vg as the major yolk protein precursor, but also manufacture a class of minor yolk proteins referred to as egg-specific proteins (ESP) or YP2s. Although the lepidopteran ESP/YP2s are related to lipoprotein lipases, previous attempts to directly demonstrate their homology with higher-dipteran YPs were unsuccessful. In this paper, a multiple alignment of amino acid sequences was constructed using a shared lipid binding motif as an anchor, to demonstrate that lepidopteran ESP/YP2s, higher-dipteran YPs, and lipoprotein lipases are indeed homologous. Phylogenetic analyses of the aligned sequences were performed using both distance-based and parsimony strategies. It is apparent that the higher dipterans did not requisition a lipoprotein lipase to replace Vg as a yolk protein precursor, but instead utilize a class of proteins with an evolutionary history of use as minor constituents of yolk in other insects.     

Ultrastructural observations of the early and late stages of gorgonian coral (Junceella juncea) oocytes

The developmental oogenesis of gorgonian coral was investigated at the histological level. The objective of this study was to examine and improve the understanding of Junceella juncea oogenesis using ultrastructural methods, such as histological sectioning and transmission electron microscopy. At least three types of yolk materials were observed in this study: yolk body, lipid granules and cortical alveoli. Some of the complex yolk materials were encompassed by concentric or arched layers of smooth and rough endoplasmic reticulum and the Golgi complex in early stage oocytes. Different types of vesicles were found in both early and late stage oocytes and some granules could be seen inside the empty vesicles. This may be a possible method for elaborating complex yolk materials. Homogeneous yolks from different types of inclusions were abundant and the autosynthesis of yolk may be a major mechanism in J. juncea oocytes. This is the first report of the ultrastructural observation of oogenesis in gorgonian coral species using transmission electron microscopy. Our study obtained relatively detailed information at the ultrastructural level, and it provides an overview of the oocyte ultrastucture of the gorgonian coral J. juncea.     

Sea urchin spectrin in oogenesis and embryogenesis: a multifunctional integrator of membrane-cytoskeletal interactions

Using indirect immunofluorescence microscopy on semithin cryosections of maturing ovarian tissue, eggs, and developing embryos, we have mapped the cellular distribution and dynamic redistribution of spectrin in oogenesis and early embryogenesis. During oogenesis, spectrin is initially found in the cortex of oogonia and previtellogenic oocytes, and later accumulates in the cytoplasm of vitellogenic oocytes on the surfaces of cortical granules, pigment granules/acidic vesicles, and yolk platelets. Following egg activation, spectrin undergoes a rapid redistribution coincident with three major developmental events including: (1) restructuring of the cell surface, (2) translocation of pigment granules/acidic vesicles to the cortex during the first cell cycle, and (3) amplification of the embryo's surface during the rapid cleavage phase of early embryogenesis. The synthesis and storage of spectrin during oogenesis appears to prime the egg with a preestablished pool of membrane-cytoskeletal precursor for use during embryogenesis. Results from this study support the hypothesis that spectrin may function as a key integrator and modulator of multiple membrane-cytoskeletal functions during embryonic growth and cellular differentiation.     

Functional role of a high mol mass protein complex in the sea urchin yolk granule

We have investigated the biochemical and functional characteristics of the major protein constituents of the yolk granule organelle present in sea urchin eggs and embryos. Compositional analysis, using sodium dodecyl sulfate polyacrylamide gel electrophoresis, revealed distinctly different polypeptide patterns under reducing and non-reducing conditions. In the presence of reducing agent, a 240 kDa species dissociated into polypeptides of apparent mol mass 160, 120 and 90 k. The relatedness of these polypeptides to the 240 kDa species was demonstrated in protein gel blot and peptide mapping analyses. The profile of yolk granule polypeptides was dynamic during embryonic development with the disappearance of the 160 kDa species and the coincidental appearance of lower mol mass polypeptides. However, the 240 kDa complex was detected even after the disappearance of the 160 kDa polypeptide. The 240 kDa complex was released from yolk granules in the absence of calcium and the purified species was shown to bind liposomes in a calcium-dependent manner. In addition, the 240 kDa complex possessed a calcium-dependent, liposome aggregating activity. The 240 kDa species could also induce the aggregation of yolk granules, previously denuded of the complex following treatment with either ethylenediaminetetraacetic acid or trypsin. Collectively, these results demonstrate the dynamic characteristics of the yolk granule 240 kDa protein complex and offer insights into a possible functional role.     

Maternal factors and the evolution of developmental mode: Evolution of oogenesis in Heliocidaris erythrogramma

 Evolutionary change in developmental mode in sea urchins is closely tied to an increase in maternal provisioning. We examined the oogenic modifications involved in production of a large egg by comparison of oogenesis in congeneric sea urchins with markedly different sized oocytes and divergent modes of development. Heliocidaris tuberculata has small eggs (95 μm diameter) and the ancestral mode of development through feeding larvae, whereas H. erythrogramma has large eggs (430 μm diameter) and highly modified non-feeding lecithotrophic larvae. Production of a large egg in H. erythrogramma involved both conserved and divergent mechanisms. The pattern and level of vitellogenin gene expression is similar in the two species. Vitellogenin processing is also similar with the gonads of both species incorporating yolk protein from coelomic and hemal stores into nutritive cells with subsequent transfer of this protein into yolk granules in the developing vitellogenic oocyte. Immunocytology of the eggs of both Heliocidaris species indicates they incorporate similar levels of yolk protein. However, H. erythrogramma has evolved a highly divergent second phase of oogenesis characterised by massive deposition of non-vitellogenic material including additional maternal protein and lipid. Maternal provisioning in H. erythrogramma exhibits recapitulation of the ancestral vitellogenic program followed by a novel oogenic phase with hypertrophy of the lipogenic program being a major contributor to the increase in egg size. Received: 12 August 1998 / Accepted: 25 November 1998     

Identification, synthesis, and characterization of the yolk polypeptides of Plodia interpunctella

The mature eggs of Plodia interpunctella were found to contain four major polypeptides. These yolk polypeptides (YPs) were found to have approximate molecular weights of 153,000 daltons (YP1), 69,000 daltons (YP2), 43,000 daltons (YP3), and 33,000 daltons (YP4) as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). In addition, we found YP1 was resolved by a 5% polyacrylamide gel into two separate polypeptides of 153,000 and 147,000 daltons. All of the YPs could be labeled in vivo or in vitro with [35S]-methionine. Yolk peptide 1 and YP3 were synthesized by fat body of pharate adult and adult females and secreted into the hemolymph. Yolk peptide 2 and YP4 were synthesized and secreted into incubation medium by ovaries that contained vitellogenic oocytes, but these polypeptides were not found in the hemolymph. Fat bodies of males synthesized and secreted an immunoprecipitable polypeptide similar to YP3 as well as immunoprecipitable polypeptides larger than 200,000 daltons that had no counterparts in the oocytes. Peptide mapping by protease digestion showed each YP to be cleaved into unique fragments, suggesting that no precursor-product relationship exists between the YPs. Ion exchange chromatography and gel permeation chromatography separated that yolk proteins into two groups with approximate molecular weights of 462,000 and 264,000 daltons. By resolving these peaks on SDS-PAGE, it was found that YP1 and YP3 formed the 462,000-dalton yolk protein and YP2 and YP4 formed the 264,000-dalton yolk protein.     

Drosophila cathepsin B-like proteinase: a suggested role in yolk degradation

A cysteine, cathepsin B-like proteinase activity has been found in Drosophila embryos. It appears associated with yolk granules and its activity during embryogenesis correlates well with the degradation of these organelles. In mature oocytes, the enzyme is found in an inactive form which may be activated by limited proteolysis by a serine proteinase also present in oocytes. In early embryos, when solubilized in vitro, the cathepsin B-like proteinase is found in a form of high molecular mass (approx 1000 kDa). This decreases with development down to about 39 kDa, likely the mass of the free proteinase. The heavy form apparently results from the tight association with a yolk protein complex. The proteinase has been found in vitro to degrade readily the yolk polypeptides. The proteinase activity increases during early embryogenesis in parallel with the decrease in molecular weight of the heavy form, and decreases to low values in late embryos. We have also found that ammonium chloride can inhibit in vivo the degradation of yolk and, in parallel, the developmental inactivation of the proteinase. The results altogether suggest that the cathepsin B-like proteinase is implicated in yolk degradation in Drosophila.     

Localization and functional role of a 41 kDa collagenase/gelatinase activity expressed in the sea urchin embryo

The egg storage compartment of the sea urchin embryo was investigated for a protein destined for export to the extracellular matrices. Using an antiserum prepared against a 41 kDa collagenase/gelatinase localized to the extraembryonic matrices (the hyaline layer and basal lamina), the egg storage compartment was mapped for this antigen. Indirect immunofluorescence analysis revealed the 41 kDa collagenase/gelatinase in the cortical granules as well as a second compartment which was dispersed throughout the egg cytoplasm. High resolution immunogold labeling defined this cytoplasmic compartment as the yolk granule organelle. Gelatin substrate gel zymography revealed the presence of a 41 kDa gelatin cleavage activity in purified yolk granules. These results suggest a role for yolk granules in regulated protein export and challenge the traditional view of this organelle as a benign storage compartment for nutrients. In additional experiments, embryos grown in the presence of the 41 kDa cleavage activity or the anti-41 kDa antiserum had severely delayed gut formation and spicule elongation. These results demonstrate a requirement for defined levels of the 41 kDa activity in the extracellular matrices of the developing embryo.     

Characterization of vitellin,egg-specific protein and 30 kDa protein from Bombyx eggs,and their fates during oogenesis and embryogenesis

Three major yolk proteins, vitellin, egg-specific protein and 30 kDa proteins, were purified from the same extracts of Bombyx mori eggs by high-performance liquid chromatography on a molecular sieving column. Each preparation was judged to be homogeneous by polyacrylamide gel electrophoresis. The subunit structure was estimated to be as follows: vitellin is a tetramer with a molecular mass of 420 kDa, consisting of two heavy subunits (178 kDa) and two light subunits (43 kDa); egg-specific protein is a trimer (225 kDa) of two heavy subunits (72 kDa) and one light subunit (64 kDa); 30 kDa proteins are a mixture of three monomers (1, 2 and 3) consisting of respective subunit molecular masses of 32.0, 31.0 and 29.5 kDa. The three yolk proteins contained the usual amino acids together with various lipids and carbohydrates. Antisera to each protein did not cross-react. The titration of vitellin, egg-specific protein and 30 kDa proteins on rocket immunoelectrophoresis showed a differential accumulation pattern during the course of oogenesis. In newly laid eggs, vitellin, egg-specific protein and 30 kDa proteins accounted for approx. 40%, 25% and 35%, respectively, in weight. The eggs developed in male hosts after implantation of ovary discs were deficient in vitellin but contained egg-specific protein and 30 kDa proteins at comparable levels to the normal female eggs. During embryogenesis, egg-specific protein was rapidly and completely utilized. Approx. 35% vitellin and 50% 30 kDa proteins remained unused and were carried over to the hatched larvae. Such accumulation and utilization of yolk proteins are correlated with the fates of the proteins during oogenesis and embryogenesis of B. mori.     

Identification of mRNA-binding proteins during development: characterization of Bufo arenarum cellular nucleic acid binding protein

Ultraviolet irradiation was used to covalently cross-link poly(A)+RNA and associated proteins in eggs and embryos of the toad Bufo arenarum. Four major proteins with apparent sizes of 60, 57, 45 and 30-24 kDa were identified. It was observed that the same mRNA-binding proteins were isolated from eggs to gastrula and neural stages of development. The 30 kDa polypeptide, p30, appeared as the main ultraviolet (UV) cross-linked protein in the developmental stages analyzed. By means of polyclonal antibodies, it was determined that this polypeptide has a cytoplasmic localization and it was detected in liver, eggs and embryos. The presence of p30 was also analyzed by western blot during oogenesis and development. The 30 kDa polypeptide was present in all stages analyzed but it could not be detected in stages I-II of oogenesis. At the neural stage, the relative amount of p30 began to decrease, reaching its lowest levels after stages 26-30 (tail-bud in Bufo arenarum). On the basis of purification, immunoprecipitation and western blot assays the 30 kDa protein was identified as the Bufo arenarum cellular nucleic acid binding protein.     

东方扁虾卵子发生的超微结构

根据卵细胞的形态、内部结构特征及卵母细胞与滤泡细胞之间的关系,东方扁虾的卵子发生可划分为卵原细胞、卵黄发生前卵母细胞、卵黄发生卵母细胞和成熟卵母细胞等四个时期。卵原细胞胞质稀少,胞器以滑面内质网为主。卵黄发生前卵母细胞核明显膨大,特称为生发泡;在靠近核外膜的胞质中可观察到核仁外排物。卵黄发生卵母细胞逐渐为滤泡细胞所包围;卵黄合成旺盛,胞质中因而形成并积累了越来越多的卵黄粒。东方扁虾卵母细胞的卵黄发生是二源的。游离型核糖体率先参与内源性卵黄合成形成无膜卵黄粒。粗面内质网是内源性卵黄形成的主要胞器。滑面内质网、线粒体和溶酶体以多种方式活跃地参与卵黄粒形成。卵周隙内的外源性物质有两个来源:滤泡细胞的合成产物和血淋巴携带、转运的卵黄蛋白前体物。这些外源性物质主要通过质膜的微吞饮作用和微绒毛的吸收作用这两种方式进入卵母细胞,进而形成外源性卵黄。内源性和外源性的卵黄物质共同参与成熟卵母细胞中富含髓样小体的卵黄粒的形成。卵壳的形成和微绒毛的回缩被认为是东方扁虾卵母细胞成熟的形态学标志。       

Storage and mobilization of extracellular matrix proteins during sea urchin development

After fertilization, sea urchin embryos surround themselves with an extracellular matrix, or hyaline layer, to which cells adhere during early development. Hyalin, the major protein component of the hyaline layer has been isolated and partially characterized in several laboratories. Although other proteins are present in the hyaline layer, little is known about their origin, distribution, or functions. The present report characterizes a set of hyaline layer proteins that are secreted after fertilization from a class of vesicles that are distinct from cortical granules. The group of proteins in these vesicles were identified by a monoclonal antibody (8d11) which recognizes a carbohydrate epitope common to each of these molecules. 8d11 polypeptides range in molecular weight from 105 to 225 kDa. Oogonia and oocytes in early stages of vitellogenesis do not express the antigen. The proteins are first observed by immunofluorescence during oogenesis as a peripheral band in mid-vitellogenic oocytes. Following germinal vesicle breakdown 8d11 moves to be distributed evenly throughout the cytoplasm. The proteins are transported to the egg surface by a cytochalasin-sensitive mechanism after fertilization, and secreted predominately within the first 30 min of development. 8d11 proteins are depleted in areas of cell contact during early embryogenesis, and become concentrated on the apical surface of ectoderm cells where they are assembled into high-molecular-weight aggregates. Three of the molecules in this group may be proteins previously described as "apical lamina" proteins. These observations provide evidence of a third pathway (cortical granules and basal lamina granules being the other two) for synthesis, storage, and exocytosis of matrix proteins that are release after fertilization.     

The Caenorhabditis elegans CPI-2a cystatin-like inhibitor has an essential regulatory role during oogenesis and fertilization

In the present study, we characterized a sterile cpi-2a(ok1256) deletion mutant in Caenorhabditis elegans and showed that CPI-2a has an essential regulatory role during oogenesis and fertilization. We have also shown that the CPI2a inhibitor and both Ce-CPL-1 and Ce-CPZ-1 enzymes are present in the myoepithelial sheath surrounding germ cells, oocytes, and embryos as well as in the yolk granules within normal oocytes. Staining of mutant worms with anti-yolk protein antibodies has indicted that the proteins are not present in the mature oocytes. Moreover, green fluorescent protein expression was absence or reduced in cpi-2a/yp170:gfp mutant oocytes, although it was expressed in one of the successfully developed embryos. Based on these results, we hypothesize that the sterility in cpi-2a(ok1256) mutant worms is potentially caused by two possible mechanisms: 1) defects in the uptake and/or processing of yolk proteins by the growing oocytes and 2) indirect induction of defects in cell-cell signaling that is critical for promoting germ line development, oocyte maturation, ovulation, and fertilization. A defect in any of these processes would have detrimental effects on the development of normal embryos and consequently normal production of progenies as we observed in cpi-2a mutant worms. This is the first study that demonstrates the expression of cysteine proteases and their endogenous inhibitor in the gonadal sheath cells surrounding germ cells and oocytes, which indirectly have established their potential involvement in proteolytic processing of molecules within the gonadal sheath cells, such as components of the extracellular matrix or the cytoskeletal proteins, which are essential for proper cell-cell signaling activities of the gonadal sheath cells during normal maturation and ovulation processes.     

Molecular characterization of three forms of vitellogenin and their yolk protein products during oocyte growth and maturation in red seabream (Pagrus major), a marine teleost spawning pelagic eggs

Full-length cDNAs encoding three forms of vitellogenin (Vg) were obtained from a liver cDNA library of estrogen-treated red seabream, Pagrus major. Two of the three Vg sequences had high homology with type-A and -B Vgs (VgA and VgB) of other teleosts. The third red seabream Vg was classified as a type-C or phosvitinless (Pvl) Vg due to its lack of a phosvitin (Pv) domain. Two Vg preparations (610 and 340 kDa) from blood serum of estradiol-treated fish were biochemically characterized. Analyses of precursor-product relationships by examination of N-terminal amino acid sequences verified cleavage of the 610 kDa Vg into a 540 kDa lipovitellin (Lv) and a 32 kDa beta'-component. Each of these yolk preparations comprising both VgA- and VgB-derived polypeptides. The 340 kDa Vg, which was immunologically verified to be a PvlVg, was accumulated by vitellogenic oocytes with no alterations to its native molecular mass. During oocyte maturation, the VgA- and VgB-derived yolk proteins were differentially processed, presumably to generate a pool of free amino acids for oocyte hydration or for allocation of specific types of nutrients, amino acids, and proteins, to the developing embryo. Conversely, the 340 kDa Vg-derived yolk protein is unlikely to contribute to oocyte hydration or diffusible nutrients since the molecule underwent only minor proteolytic nicking during oogenesis. The present study elucidates for the first time specific functions of three different forms of Vg and their product yolk proteins in a higher taxonomic group of marine teleosts that spawn pelagic eggs.     

Development and fine structure of the yolk nucleus of previtellogenic oocytes in the medaka Oryzias latipes

The development and fine structure of yolk nuclei in the cytoplasm of previtellogenic oocytes were examined by electron microscopy during several stages of oogenesis in the medaka, Oryzias latipes. Shortly after oogenesis starts, oocytes 20-30 microm in diameter have much electron-dense (basophilic) cytoplasm, within which a continuous or discontinuous, irregular ring-shaped lower electron-dense area of flocculent appearance (LF) begins to emerge around the nucleus. The yolk nucleus is first recognized within an LF area as a few fragments of dense granular thread measuring 20-25 nm in width. The threads consist of two rows of very dense granules resembling ribosomes or ribonucleoprotein (RNP)-like particles in size and electron density. These thread-like fragments gradually increase in number and length until they assemble into a compact, spherical mass of complicated networks. Analysis of serial sections suggests that the yolk nucleus is a complicated mass of numerous, small deformed vacuoles composed of a single lamella with double layers of ribosomes or RNP-like granules, rather than a mass of granular threads. When oocytes develop to greater than 100 microm in diameter, the yolk nucleus begins to fragment before dispersing throughout the surrounding cytoplasm, concomitantly with the disappearance of LF areas. At this stage of oogenesis, a restricted region of the granulosa cell layer adjacent to the yolk nucleus becomes somewhat columnar in morphology, fixing the vegetal pole region of the oocyte.     

Isolation and identification of yolk proteins in Indian major carp,Labeo rohita

Two yolk proteins (YP1 and YP2) from the ovaries of Indian major carp, Labeo rohita were isolated by gel filtration and partially characterized by the use of hydroxyapatite ultrogel column in conjunction with native PAGE. On native PAGE YP1 gave a single protein band, whereas YP2 of gel filtration revealed the contamination of YP1, which was removed by adsorption chromatography on hydroxyapatite ultrogel and then the YP2 was the purified one as judged by electrophoresis. Both YP1 and YP2 also stained for lipid and contained alkalilabile phosphorus. Therefore, both yolk proteins were lipophosphoprotein. The molecular weights of YP1 and YP2 were 620 kDa and 225 kDa respectively as determined by gel filtration on Sepharose 4B. When YP1 and YP2 were compared in relation to some physicochemical characteristics with yolk proteins of other oviparous vertebrates including fish, they were lipovitellin like. Antiserum to YP2 crossreacted with YP2 and vitellogenin suggesting that YP2 was the cleaved product of vitellogenin. Anti-YP2 antiserum was not crossreacted with native YP1, whereas reduced and/or denatured YP1 was crossreacted indicating the presence of antigenic determinants in the inner core region of YP1 polypeptide.