Dynamics of structural and functional association of nucleolar chromosomes in cells of the hexaploid wheat Triticum aestivum L. at different stages of the cell cycle and during genome polyploidization

Quantitative analysis of interphase association of the nucleolar chromosomes at different stages of the cell cycle and during genome polyploidization was carried out. Cells of various tissues of hexaploid wheat Triticum aestivum L. (Moskovskaya-35) were used, including diploid root meristematic cells, endopolyploid root cells, triploid endosperm cells and antipodal cells with polytene chromosomes. Interphase nucleoli impregnated with silver or stained with autoimmune antibodies to 53 kDa nucleolar protein served as markers of the nucleolar chromosome association. The following data were obtained: (1) silver-staining revealed two pairs of homologous chromosomes 1B and 6B with active nucleolus-organizing regions in the root meristematic cells; (2) maximal number of nucleoli in diploid meristematic cells reaches four, which corresponds to the number of chromosomes with active organizers; (3) analysis of cells at different stages of the cell cycle has shown that the tendency to the nucleoli association is observed as soon as cells pass individual stages of the cycle; (4) after DNA and chromosome reduplication, the nucleolus-organizing regions in sister chromatids function as a common structure-functional complex; (5) in endopolyploid root cells and antipodal cells with polytene chromosomes, the number of nucleoli does not correlate with ploidy level, and an additional nucleolus revealed in some cells is the result of activation of the latent organizer in one of the nucleolar chromosomes; (6) in the triploid endosperm nucleologenesis, the stage of prenucleolar bodies is missing. Our data suggest that "fusion" of nucleoli and reduction of their number due to the "satellite" association of the nucleolar chromosomes are two independent processes regulated by different mechanisms.     

Chromatin in diapause of the silkworm <Emphasis Type="Italic">Bombyx mori</Emphasis> L.: Thermal parthenogenesis and normal development

By using hematoxylin staining, peculiarities of chromatin of diapausing silkworm embryos were studied in normal and parthenogenetic development. A direct correlation was revealed between the number of interphase chromatin grains and the number of chromosomes in the nucleus; polyploidization of cells in embryo was studied at the stage of diapause. The polyploidization in parthenogenesis is not restricted to endomitotic chromosome set doubling, as it includes 6n-nuclei. To explain the more diverse spectrum of polyploid cells in parthenogenesis (as compared with the norm), it is necessary to take into account fusion of cleavage nuclei, which is realized by the cytoplasmic mechanism of karyogamy in the absence of fertilization. On squash preparations, for the first time, we identified primordial germ cells of the diapausing embryo, which are characterized by less compact chromatin, especially in the zygotic variant of development; by larger nuclei and cytoplasm; and by an irregular number and size of nucleoli. Estimation of ploidy of the primary germ cells in parthenogenesis by counting “loose” chromatin grains in diapause is possible and indicates polyploidization in the primordial germ cells. This explains an inevitable admixture of tetraploid eggs in the grain of diploid parthenoclones and its absence in normal development. The cytological method used has revealed a spiral arrangement of chromatin grains on the internal nuclear surface at different ploidy levels.     

Nucleoli and ribosomal RNA cistron numbers in Hordeum species and interspecific hybrids exhibiting suppression of secondary constriction

The interspecific hybrids of Hordeum exhibit selective suppression of secondary constriction formation in the chromosome(s) contributed by one of the two parents. A comparison of the number of SAT (secondary constriction) chromosomes in the metaphase cells and the maximum number of nucleoli in interphase cells revealed that the chromosomes capable of organising nucleoli were not always reflected through secondary constriction formation. — The rDNA (DNA complementary to rRNA) amounts were estimated by DNA-rRNA filter hybridisation in diploid and polyploid species of Hordeum and their hybrids. While similar rDNA proportions were present in diploid and autotetraploid lines of H. bulbosum, there were up to threefold differences between H. vulgare and allohexaploids. Furthermore, differences were also apparent between species of same ploidy level. Ribosomal RNA (18S+5.8S+26S) cistron numbers in each of the five experimental hybrids exhibiting the selective suppression of secondary constriction formation revealed no selective loss of rDNA. — The presence of a higher number of nucleoli than the number of SAT chromosomes seen and the presence of expected number of rRNA cistrons suggest that the suppression of secondary constriction formation is not due to selective loss of rDNA.     

Morphological and cytofluorometric study of the giant cells of the trophoblast of the common vole]

The primary and secondary giant cells of trophoblast in placenta Microtus arvalis were studied. The giant polyploid nuclei are formed in result of series of successively proceeding endomitotic polyploidization of chromosomes. Two stages of endomitosis are described: endointerphase with the uniform net of thin chromatin threads and the stage when small round or rod-shaped paired chromosomes gather mostly under the nuclear membrane. Great number of round, oval, and complex-shaped nucleoli may be seen in nuclei during both stages of endomitosis, the number growing during polyploidization. The morphology of the chromosome-nucleolar apparatus involves peculiarities of the polyploidization mechanism in placenta Microtus arvalis trophoblast. Endomitosis occurs both in low and high-polyploid nuclei. Cytofluorometric determination of the DNA amount in nuclei polyploid nature. The degree of polyploidy of the trophoblast giant cells nuclei during terminal differentiation of placenta corresponds to 128c-512c, and some nuclei contain the DNA amount corresponding to 1024 and 2048 chromosomal sets. The cause of origin of the polyploid cells in trophoblast of rodents placenta is discussed.     

Chromatin in diapause of the silkworm Bombyx mori L.: thermal parthenogenesis and normal development

Having used hematoxylin as a stain, some features of silkworm embryo chromatin in diapause have been studied in normal and parthenogenetic development. With found direct correlation between the number of interphase chromatin grains and the number of chromosomes in the nucleus, we examined cell polyploidization in the embryo at diapause stage. Polyploidization by parthenogenesis is not reducible to endomitotic doubling of the chromosome set because it comprises 6n-nuclei. Explanation of more diverse range of polyploid cells in parthenogenesis needs to consider the fusion of cleavage nuclei that is carried out by the cytoplasmic karyogamic mechanism in the absence of fertilization. For the first time on squash preparations, in diapausing embryo, we have identified primary germ cells (PGC) that are characterized by less compact chromatin, especially in the zygotic form of development, a larger size of the nucleus and cytoplasm, and irregular number and size of nucleoli. Evaluation of PGC ploidy in parthenogenesis by calculation of "loose" chromatin grains in diapause is possible and testifies polyploidization in embryo germ-line. This explains the inevitable admixture of tetraploid eggs in diploid parthenoclone grain and its absence in normal development. Cytological method used has revealed a spiral arrangement of chromatin grains on the inner surface of the nucleus at different levels of ploidy.     

Fine structure of nucleoli in micronucleated cells

The correlation between the number of nucleolus organizing regions (NOR) on metaphase chromosomes and the number of nucleoli was studied in normal and micronucleate cells. Many micronuclei, but not all, were able to form complete nucleoli with fibrillar and granular RNP components and fibrillar centers. Micronuclei which failed to form complete nucleoli often contained multiple electron-dense bodies of fibrillar material. These structures, which were much smaller than nucleoli, reacted with nucleolus-specific antibodies and the Ag-As method in the same way as complete nucleoli, but lacked fibrillar centers and granular RNP components. The data suggest that these nucleolus-like ‘blobs’ contain nucleolar material which, following mitosis, has been enclosed in micronuclei which do not contain nucleolus organizing chromosomes. No evidence was found for the activation of latent NORs not expressed in mononucleate cells.     

A quantitative study of Ag-positive nucleolar segments revealed by silver staining in the interphase nuclei of trophoblast cells from the rat placental connective zone

A cytomorphological study was made of silver stained nucleoli in interphasic nuclei of trophoblast cells from the rat placenta connective zone, in addition to calculation of Ag-positive spherules in the nucleoli. The prevalent number of Ag-positive nucleolar spherules in the nuclei was 6, corresponding to the number of nucleolar organizers (NOR's) in the diploid chromosome complement of the rat. The mean number of Ag-positive spherules in the nucleoli progressively increase in the course of polyploidization from 2c to 32c; variability of the spherule number also increasing. The mean area of nucleoli is found to increase in proportion to the ploidy degree. A high correlation is found between the number of Ag-positive spherules and the area of nucleoli in the nucleus (r = 0.78). This appropriateness is exhibited at all the ploidy levels. The number of Ag-spherules and the area of nucleoli are found to depend slightly on the number of nucleoli. The possibility to use the number of Ag-positive spherules as a criterion of the activity of the NOR in interphasic nuclei is discussed.     

Ag-NOR staining in the Bennett wallaby, Macropus rufogriseus: evidence for dosage compensation

Silver staining of cells in metaphase and interphase nuclei of both sexes of the Bennett wallaby, Macropus rufogriseus, has shown that (1) the nucleolus organizer region (NOR) is located only on the X chromosome (single Ag-NOR); (2) both X chromosomes in the female cells stain with silver; (3) the amounts of silver staining of metaphase chromosomes and interphase nuclei of both sexes are very similar; (4) the single X chromosome is hyperactive in male cells to equalize the expression of rRNA genes in the female cells with two X chromosomes; and (5) the mechanism of dosage compensation for rRNA genes in this species is similar to that reported for Drosophila salivary gland cells.     

Cytogenetic study of silver-staining NOR in 8-cell-stage mouse blastomeres fused to 1-cell-stage embryos

Isolated blastomeres from 8- to 16-cell-stage embryos were fused by standard micromanipulatory means with either unfertilized eggs or fertilized or haploid parthenogenetically activated pronuclear-stage embryos. The hybrid eggs/embryos were incubated overnight in the presence of Colcemid until they had entered the first cleavage division. Air-dried chromosome preparations were then stained with silver nitrate in order to detect active nucleolar organizing regions (NOR). While control unfertilized eggs and 1-cell-stage fertilized and parthenogenetically activated embryos showed no evidence of silver-staining NOR-positive regions, the metaphase plates from 8- to 16-cell embryos showed characteristic NOR-positive regions, while their interphase nuclei also showed a characteristic reticular staining appearance. When hybrids between blastomere nuclei and unfertilized eggs were examined, none of the blastomere nuclei entered mitosis. However, when hybrids between blastomere nuclei and fertilized embryos were examined, in two thirds of the embryos, a single blastomere-derived diploid metaphase plate was present in association with two pronuclear-derived haploid metaphase plates. In most instances, the blastomere-derived chromosomes did not display silver-nitrate-staining NOR. Similar findings were observed when the blastomere-derived chromosomes in hybrids between blastomere nuclei and haploid parthenogenetic embryos were analysed. In the majority of cases, when blastomere nuclei remained in interphase, the characteristic silver-nitrate-staining fine reticular material either was not seen, or the nuclear contents were dispersed into clumps of chromatin-like material. Occasionally, the diploid chromosomes in the hybrids displayed morphological abnormalities. Our findings suggest that the cytoplasm of activated (but not nonactivated) 1-cell embryos is capable of influencing the nucleolar activity of the introduced 8- to 16-cell nuclei, effectively erasing from their chromosomes the memory of at least three previous rounds of rRNA synthesis.     

广藿香毛状根多倍体诱导及其植株再生

为了提高药用植物广藿香的次生物质广藿香醇含量,采用秋水仙素人工诱导染色体加倍技术,进行了广藿香毛状根多倍体诱导及其植株再生、倍性鉴定和挥发油组分广藿香醇含量的测定。结果表明,广藿香毛状根多倍体诱导的最佳条件为0.05%秋水仙素处理36 h,其多倍体诱导率可达40%以上;经秋水仙素加倍的广藿香毛状根在MS+6-BA 0.2 mg/L+NAA 0.1 mg/L培养基中培养60 d后可获得毛状根多倍体再生植株。与对照(二倍体植株)相比,广藿香毛状根多倍体再生植株根系更发达、茎更粗、节间变短、叶片的长度、宽度和厚度均较二倍体明显增大。根尖细胞染色体压片观察证实,所获得的广藿香毛状根多倍体再生植株为四倍体,其根尖细胞染色体数约为128;同时,其叶片的气孔保卫细胞体积及其叶绿体数目均约为对照的两倍;但其气孔密度则随着倍性增加而下降,二倍体植株叶片的气孔密度约为四倍体植株叶片的1.67倍。GC-MS测定结果表明,广藿香毛状根多倍体再生植株的广藿香挥发油组分广藿香醇的含量为4.25 mg/g干重,约为二倍体植株的2.30倍。该结果证实毛状根多倍体化可提高药用植物广藿香的广藿香醇含量。     

库拉索芦荟的多倍体诱导及其变异初报

在组织培养条件下,对库拉索芦荟（Aloe vera L.)用秋水仙素进行染色体加倍的诱导处理,结果表明：用含0.06%秋水仙素处理12h后诱变频率可达50％,其效果最佳。经秋水仙素诱导的加倍群体与正常二倍体植株比较,植株的大多数叶片变厚,叶色变深,叶片变大,气孔增大而单位叶面积气孔数减少。对变异材料进行细胞学研究所发现,体细胞中期染色体为2n=4x=28,为4倍体。未加倍前的二倍体为2n=2x=14。检测中也发现有少数植株有2n=14和2n=28两种细胞型的情况。     

秋水仙碱诱导重瓣大岩桐(Sinningia speciosa)多倍体的研究

以重瓣大岩桐叶片为外植体,经秋水仙碱处理得到大量的多倍体植株。在培养基中加入秋水仙碱２０ｍｇ Ｌ＾－１处理一周,可使重瓣大岩桐的诱变率达到６２．５％,对再生植株进行形态学观察表明,多倍体植株比二倍体的茎粗壮,叶片增大,加厚。细胞学鉴定四倍体染色体数为２ｎ＝４ｘ＝５２,而二倍体的染色体数为２ｎ＝２６。     

Genome multiplication of extravillous trophoblast cells in human placenta in the course of differentiation and invasion into endometrium and myometrium. I. Dynamics of polyploidization

Polyploidization of the extravillous trophoblast (EVT) cells at different stages of differentiation and invasion into the uterine wall in human placenta has been studied. An increase in the ploidy level of EVT cells in the course of their differentiation within cell columns (CC) was shown. Stem cells were mainly diploid (86.2%); incidence of polyploid nuclei of highly proliferative cells of the proximal part of CC increased progressively. In the distal part of CC, where EVT cells did not divide mitotically, polyploid cells prevailed, with 58.0 and 3.5% nuclei being 4c and 8c, respectively. The highest percentage of polyploid cells was found in the population of EVT cells attached directly to the surface of the decidualized endometrium: percentage of tetraploid cells turned out to be 74.7% and the share of octaploid nuclei rose up to 4.9%; however, there appeared a few (0.3%) 16c cells. The majority of EVT cells invading the decidualized endometrium were polyploid, the share of octaploid and hexadecaploid cells rose up to 9.7 and 1.4%, respectively. On the other hand, the percentage of diploid cells also increased up to 29.2% as compared to EVT cells attached to decidua (20.0%). The same tendency proved to be even stronger in myometrium: the share of diploid EVT cells increased up to 46.0%, a prominent amount of tetraploid (45.1%) and highly polyploid (8c and 16c) cells retained in the EVT cell population (7.4 and 1.1%, respectively). Immunohistochemical staining of Ki-67 protein (MIB1), which labels cells held in the cell cycle, showed a high incidence of MIB1-positive stem cells (93.7%) and the EVT cells of the proximal part of CC (85.5%) characterized by high mitotic activity. A lower MIB1-positivity (43.2%) was found in the distal part of CC, whereas invasive EVT cells showed no MIB1-labeling. The presence of MIB1-positive nuclei in the distal part of CCs in the absence of mitoses, taken together with data on polyploidization of these cells, indicates their switch to the endoreduplication cycle. As a whole, the data obtained evidence that differentiation of EVT cells of the invasive pathway is accompanied by polyploidization. However, in a population of trophoblast cells capable of most profound invasion (up to myometrium), the proportion of diploid cells rose. These results suggest that the human cytotrophoblast invasion into the uterine wall requires an optimum, not the highest, ploidy level, whereas highly polyploid cells may form a subpopulation at the border between the maternal and fetal parts of placenta.     

A and D genomes spatial separation at somatic metaphase in tetraploid cotton: evidence for genomic disposition in a polyploid plant

Chromosomal dispositions were analyzed on the metaphase plate of tetraploid cotton (AADD). At metaphase, the two subgenomes, A and D, were separated in a radial pattern in which the small D subgenome chromosomes tended to concentrate at the center and the large A subgenome chromosomes were scattered about the periphery on the metaphase plate. Although the ordered chromosome arrangement was disturbed in an artificial hexaploid (AADDGG), the separation pattern could be recovered after the majority of the additional genome (GG) chromosomes were removed by backcrossing the artificial hexaploid with the tetraploid cotton (AADD). A similar genome separation phenomenon was also found in synthesized tetraploid cotton (AAGG). These results indicate that the genome separation pattern could be established immediately after tetraploid cotton formation and could be stably inherited in tetraploid cotton. Given the evidence of parental genome separation in other plants and animals, we speculated that genome separation might be a normal phenomenon in diploid and polyploid species. These finding will shed light on the chromosome conformation in plant cells.     

Cytoflurometric nuclear DNA-determinations in infant,adolescent, adult and aging human hearts

Summary The progress of polyploidization in the human heart muscle cell was investigated by cytofluorometry, involving selective measurements of heart muscle cell nuclei. Thirty-two tissue samples, taken from the free wall of the left ventricle of each autopsied heart, were fixed in Carnoy's fluid. From thick (100–150 m) paraffin sections, isolated cells for smears were obtained by enzyme digestion and ultrasonic treatment. The smears were stained with azocarmin G to eliminate background fluorescence and subsequently stained by an acriflavine-Feulgen reaction. Cytofluorometric DNA-determinations were carried out selectively on heart muscle cell nuclei, using the muscle striations revealed by azocarmin G-fluorescence as specific markers. The dynamic process of polyploidization in normal hearts could be divided into four stages. In the first stage (under 1 year of age), almost all heart muscle cell nuclei (94.3±1.8%) were diploid. In the second stage (1 to 9 years of age), the number of tetraploid nuclei increased (13.6±7.1%). In the third stage (9 to 22 years of age), octaploid nuclei first appeared and the number of tetraploid nuclei increased (26.7±3.9%). The DNA pattern in the fourth stage (22 to 75 years of age) was relatively constant, with a ratio of diploid (62.4±8.7%), tetraploid (31.4±6.7%) and octaploid (5.8±3.9%) nuclei. From these results it was concluded that physiological polyploidization progresses in proportion to the increase of heart weight. The frequency of polyploid nuclei in human heart was not so high as resported by previous investigators.     

Polyploidization of nuclei in the yolk syncytial layer of the embryo of the medaka, Oryzias latipes, after the halt of mitosis

It has been reported that nuclei repeat parasynchronous mitosis four or five times in the yolk syncytial layer (YSL) of the embryo of the medaka, Oryzias latipes , during the blastula stage and that no mitosis occurs in the YSL after the gastrula stage. The present investigation demonstrated the size of nuclei and the number of nucleoli and their staining properties with DNA binding dye. The results indicate that the YSL nuclei actively transcribe RNA and that their DNA content is greater than that of somatic nuclei. The onset and subsequent time course of polyploidization were examined in embryos stained with 4',6-diamidino-2-phenylindole (DAPI) by epifluorescence microspectrophotometry from the cessation of mitosis through hatching. Embryos included YSL nuclei whose DNA content spanned from diploid (2C), tetraploid (4C) to octaploid (8C) at the end of the late blastula stage. The last two populations are produced probably by their early cessation of mitosis and the subsequent duplication of DNA without mitosis or by endoreduplication. The frequency distribution of the DNA content examined during epiboly of the blastoderm suggests that each population is duplicated again until the beginning of the gastrula stage and then once more until the end of epiboly. Eventually these nuclei include polyploid DNA between 8C and 64C or more during later embryonic development.     

A Drosophila melanogaster cell line tested for the presence of active NORs by silver staining

Silver staining was used to detect active NORs in a Drosophila melanogaster cell line (C1 82) characterized by dimorphic X chromosomes (XX_L), one of the two Xs showing a marked increase in heterochromatin where the nucleolar organizer (NO) is located. The Q-banding technique was used to determine the karyotype characteristics of the line. Ag-positive NORs appeared only on structurally changed X chromosomes (X_L), both in diploid and tetraploid cells, indicating that rRNA genes of X_L are more active or numerous than those on normal homologues. A possible relationship between NOR stainability, the presence of an increased heterochromatic portion and the selective advantage of XX_L cells, recurrent in numerous Drosophila female lines, is discussed.     

How many times has polyploidization occurred during acipenserid evolution? New data on the karyotypes of sturgeons (Acipenseridae,Actinopterygii) from the Russian Far East

The karyology of species of sturgeon from the Russian Far East demonstrates that the karyotype of the Sakhalin sturgeon (Acipenser mikadoi) includes 262 ± 4 chromosomes with 80 biarmed chromosomes and the number of chromosome arms (NF) 342 ± 4, the karyotype of the Amur sturgeon (A. schrenckii) includes 266 ± 4 chromosomes with 92 biarmed chromosomes and NF 358 ± 4, and the karyotype of the kaluga (A. dauricus) consists of 268 ± 4 chromosomes with 100 biarmed chromosomes and NF 368 ± 4. These results prove that all western Pacific sturgeon species are from a tetraploid origin, based on a recent ploidy scale. This suggests that at least three polyploidization events have occurred during the evolution of Acipenseridae. However, if polyploid species originated by hybridization between diploid species, there may have been more polyploidization events in this group of fishes.     

Codling moth cytogenetics: karyotype, chromosomal location of rDNA, and molecular differentiation of sex chromosomes.

We performed a detailed karyotype analysis in the codling moth, Cydia pomonella (L.) (Lepidoptera: Tortricidae), the key pest of pome fruit in the temperate regions of the world. The codling moth karyotype consisted of 2n = 56 chromosomes of a holokinetic type. The chromosomes were classified into 5 groups according to their sizes: extra large (3 pairs), large (3 pairs), medium (15 pairs), small (5 pairs), and dot-like (2 pairs). In pachytene nuclei of both sexes, a curious NOR (nucleolar organizer region) bivalent was observed. It carried 2 nucleoli, each associated with one end of the bivalent. FISH with an 18S ribosomal DNA probe confirmed the presence of 2 clusters of rRNA genes at the opposite ends of the bivalent. In accordance with this finding, 2 homologous NOR chromosomes were identified in mitotic metaphase, each showing hybridization signals at both ends. In highly polyploid somatic nuclei, females showed a large heterochromatin body, the so-called sex chromatin or W chromatin. The heterochromatin body was absent in male nuclei, indicating a WZ/ZZ (female/male) sex chromosome system. In keeping with the sex chromatin status, pachytene oocytes showed a sex chromosome bivalent (WZ) that was easily discernible by its heterochromatic W thread. To study molecular differentiation of the sex chromosomes, we employed genomic in situ hybridization (GISH) and comparative genomic hybridization (CGH). GISH detected the W chromosome by strong binding of the Cy3-labelled, female-derived DNA probe. With CGH, both the Cy3-labelled female-derived probe and Fluor-X labelled male-derived probe evenly bound to the W chromosome. This suggested that the W chromosome is predominantly composed of repetitive DNA sequences occurring scattered in other chromosomes but accumulated in the W chromosome. The demonstrated ways of W chromosome identification will facilitate the development of genetic sexing strains desirable for pest control using the sterile insect technique.     

Ploidy levels and the number of nuclei in cardiomyocytes of the lamprey and fish

It is well known that polyploidization of cardiomyocytes (CMC) is an essential component of heart growth in the warm-blooded vertebrates. Using the Feulgen cytophotometry of alkali-dissociated cells, we determined the ploidy in CMC of the lower vertebrates: lamprey Lampetra fluviatilis (Cyclostomata), skate Bathyraja maculata (Chondrostei), sterlet Acipenser ruthenus, and Russian sturgeon Acipenser güldenst?dti (Ganoids), as well as paradise fish Macropodus opercularis, Amur sleeper Perccottus glehni, and Atlantic salmon Salmo solar (Teleostei). The data obtained have demonstrated a wide variety in CMC ploidy of both cyclostomata and fishes. About 85% of the lamprey CMC contain 2 or more (up to 17) nuclei per cell; with 90 and 10% of the nuclei being, respectively, diploid and tetraploid. Hearts of the skate and sturgeons contain mononucleated diploid CMC. In the perch-like fishes, mononucleated diploid and mononucleated tetraploid CMC make, respectively, 95 and 5%. The salmon heart contains near 50% of mononucleated diploid CMC, 13% of mononucleated tetra- and octaploid CMC, the rest CMC being multinucleated (up to 6 nuclei per cell). In all the examined species, the increased nuclear ploidy is accompanied with a significant increase in the nuclear volume. The number of nucleoli per nucleus does not correlate with the nuclear ploidy level. Evolutionary aspects of CMC polyploidy in chordates are discussed.