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1

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Induction of metamorphosis from the larval to the polyp stage is similar in Hydrozoa and a subgroup of Scyphozoa (Cnidaria, Semaeostomeae) (2000)

Siefker, Barbara ; Kroiher, Michael ; Berking, Stefan

Springer

Helgoland marine research 54 (2000), S. 230-236

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ISSN: 1438-3888

Keywords: Cnidaria Metamorphosis Aurelia aurita Cynanea lamarckii Chrysaora hysoscella

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract. Larvae of cnidarians need an external cue for metamorphosis to start. The larvae of various hydrozoa, in particular of Hydractinia echinata, respond to Cs+, Li+, NH4 + and seawater in which the concentration of Mg2+ ions is reduced. They further respond to the phorbolester, tetradecanoyl-phorbol-13-acetate (TPA) and the diacylglycerol (DAG) diC8, which both are argued to stimulate a protein kinase C. The only well-studied scyphozoa, Cassiopea spp., respond differently, i.e. to TPA and diC8 only. We found that larvae of the scyphozoa Aurelia aurita, Chrysaora hysoscella and Cyanea lamarckii respond to all the compounds mentioned. Trigonelline (N-methylnicotinic acid), a metamorphosis inhibitor found in Hydractinia larvae, is assumed to act by delivering a methyl group for transmethylation processes antagonising metamorphosis induction in Chrysaora hysoscella and Cyanea lamarckii. The three species tested are scyphozoa belonging to the subgroup of semaeostomeae, while Cassiopea spp. belong to the rhizostomeae. The results obtained may contribute to the discussion concerning the evolution of cnidarians and may help to clarify whether the way metamorphosis can be induced in rhizostomeae as a whole is different from that in hydrozoa and those scyphozoa belonging to the subgroup semaeostomeae.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s101520000053

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2

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Pattern Formation in Hydrozoa (1997)

Berking, Stefan

Springer

Naturwissenschaften 84 (1997), S. 381-388

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ISSN: 1432-1904

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Natural Sciences in General

Notes: Hydra is famous for its ability to regenerate missing structures. Even aggregates of single cells transform eventually into normally shaped animals. This indicates a communication within the tissue and within the aggregates which determines the spatial pattern of gene expression. Such pattern-forming systems are thought to play a decisive role in the control of self-organization during embryogenesis. Marine and fresh water hydrozoa appear to allow an access to such a system. Although the molecular components are still mostly unknown, the regulatory properties of the pattern-forming system are increasingly well understood, and this may help eventually to identify the components involved.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001140050414

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3

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Analysis of early stages of budding inHydra by means of an endogenous inhibitor (1977)

Berking, Stefan ; Gierer, Alfred

Springer

Development genes and evolution 182 (1977), S. 117-129

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ISSN: 1432-041X

Keywords: Hydra ; Morphogenesis ; Inhibition

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Buds originate inHydra attenuata at a position 1/3 of the body length from the basal disc. The position with respect to the vertical axes is determined first and the position of the bud on the circumference of this budding region is specified later. Bud formation in hydra is reversibly prevented by pre-treatment with an inhibitor purified from hydra tissue (Berking, 1977). Some hours after the end of the treatment with the inhibitor, bud formation is resumed. From the starting or restarting point of development after the inhibitory treatment to the visible beginning of bud formation, 4 intermediary stages were distinguished on the basis of different responses to a second treatment with inhibitor. The pre0treatment is followed immediately by a period of maximal sensitivity to the inhibitor, which varies in length. At the conclusion of this phase the time interval required for the visible appearance of buds is fixed (12 h). In this and the following phase another application of inhibitor can cancel the entire preparatory process from the pre-treatment onwards. A transition to near complete resistance to inhibitor is the basis for defining a third phase. In a fourth phase, immediately before the evagination of the bud starts, the proesence of the inhibitor will again hinder the development. Upon removal of the inhibitor the suppressed buds will appear.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00848052

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4

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Ammonia induces metamorphosis of the oral half of buds into polyp heads in the scyphozoan Cassiopea (1987)

Berking, Stefan ; Schüle, Teresa

Springer

Development genes and evolution 196 (1987), S. 388-390

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ISSN: 1432-041X

Keywords: Cassiopea ; Ammonia ; Metamorphosis ; Pattern formation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The scyphozoan polyp Cassiopea forms vegetative free swimming buds that metamorphose into sessile polyps. In sterile sea water metamorphosis does not take place. Buds keep swimming for weeks. Application of millimolar quantities of NH 4 + causes the buds to metamorphose within one day. The resulting animals bear hypostome and tentacles, however, only occasionally peduncle and foot. Almost all transform either completely into solitary polyp head or only the oral half of the bud developes into a head while the aboral half remains bud tissue which becomes constricted off. Under suited conditions this small bud is able to transform into a normal shaped polyp.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00375778

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5

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Is homarine a morphogen in the marine hydroid Hydractinia? (1986)

Berking, Stefan

Springer

Development genes and evolution 195 (1986), S. 33-38

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ISSN: 1432-041X

Keywords: Hydractinia ; Hydra ; Homarine ; Nicotinamide ; Pattern formation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Homogenate of coelenterate tissue interferes with metamorphosis in Hydractinia and pattern formation in both Hydractinia, and Hydra. From the extracts two fractions comprising low-molecular-weight compounds with strong metamorphosis-inhibiting activity were separated. One of these contains, as the active compound, homarine (N-methyl picolinic acid). Homarine concentrations down to 10−6 mol/l stop or retard metamorphosis. High concentrations block the continuation of metamorphosis as long as they are maintained in the culture medium and treatment with homarine during metamorphosis influences the proportioning of the future polyp's body pattern. Most of the homarine found in Hydra tissue derives from Artemia given as food. It is not identical with inhibitor I, an activity partially purified from Hydra tissue, which prevents head and foot formation in Hydra.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00444039

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6

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Ammonia, tetraethylammonium, barium and amiloride induce metamorphosis in the marine hydroid Hydractinia (1988)

Berking, Stefan

Springer

Development genes and evolution 197 (1988), S. 1-9

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ISSN: 1432-041X

Keywords: Ammonia ; Tetraethylammonium ; Amiloride ; Metamorphosis ; Hydractinia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary In Hydractinia metamorphosis from the swimming larval stage to the sessile polyp stage has been found to be inducible by several agents, including Li+, K+, Cs+, Rb+, diacylglycerol (DG), tetradecanoyl-phorbol-acetate (TPA) and some other tumour-promoting phorbol esters. Induction is antagonized by ouabain and compounds which are able to increase the internal level of S-adenosylmethionine (SAM). Based on the finding that Hydractinia larvae contain such compounds in a stored form, including N-methylpicolinic acid, N-methylnicotinic acid and N-trimethylglycine, as well as on the results of experiments with antagonists of SAM production and transmethylation, it has been argued that regulation of the internal SAM level plays a key role in the control of metamorphosis. However, it remains to be clarified whether the inducing agents act by decreasing the SAM level or by via different pathways. In the present study, substances chemically related to the substances known to induce or inhibit metamorphosis were tested for their metamorphosis-inducing abilities. Some were found to be effective, including NH4 +, methylamine, tetraethylammonium ions (TEA+), ethanolamine, Ba2+, Sr2+ and the diuretic, amiloride. It is of particular interest that in many organisms TPA and DG increase cytoplasmic pH while amiloride prevents a rise in pHi. Several of the substances known to trigger metamorphosis may increase the internal NH4 + concentration by hindering the export of the constantly produced NH4 + through K+ channels or through the Na+-H+ antiport. Treatment with Cs+ for 1 h increases the internal level of NH4 +. Produced and applied ammonia, as well as applied methylamine and ethanolamine, may act by accepting methyl groups, thus reducing the SAM level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00376035

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7

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Nerve cell production in Hydra is deregulated by tumour-promoting phorbol ester (1991)

Greger, Valerie ; Berking, Stefan

Springer

Development genes and evolution 200 (1991), S. 234-236

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ISSN: 1432-041X

Keywords: Hydra ; Nerve cells ; Differentiation ; Tumour-promoting phorbol esters

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The tumour-promoting phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) interfers with nerve cell production in Hydra when applied to the animals' culture medium. Precursor cells exposed to 0.2 nM TPA during the first half of their S-phase are prevented from differentiating into nerve cells. Precursor cells which start their S-phase following a treatment with TPA give rise to nerve cells. The frequency is higher than in untreated control animals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00361343

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8

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Specification of the head-body proportion inHydra attenuata regenerating the head (1983)

Berking, Stefan ; Schindler, Dietmar

Springer

Development genes and evolution 192 (1983), S. 333-336

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ISSN: 1432-041X

Keywords: Hydra ; Regeneration ; Proportion regulation ; Pattern formation ; Epithelial cells

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Pattern formation has two aspects: a structure must be formed at the correct position and be of the correct size. InHydra the inherent polarity of the tissue controls at which ends of a body segment the head and foot are regenerated. It remains unclear how it is controlled that structures of the correct size are formed. The head ofHydra attenuata, i.e. the tissue of the hypostome and the tentacles, contains about 22% of the animals epithelial cells. Both small and large fragments ofHydra tissue regenerate a head which preserves this proportionality. The process which determines the final size of the head starts in the first few hours after head removal. As the process of regeneration proceeds, a progressively larger part of the regenerating tissue is specified to transform into a head. This process continues until the volume of tissue with head specification attains the correct proportion with respect to the rest of the body. The foot-forming system interferes with the head-forming system: if foot regeneration starts before head regeneration, the new head becomes abnormally large.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00848813

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9

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Nerve cell and nematocyte production in Hydra is deregulated by lithium ions (1988)

Hassel, Monika ; Berking, Stefan

Springer

Development genes and evolution 197 (1988), S. 471-475

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ISSN: 1432-041X

Keywords: Nerve cells ; Nematocytes ; Commitment ; Deregulation ; Lithium chloride

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary LiCl, a well-known vegetalising agent, interferes with the commitment of stem cells to nerve cells and nematocytes in Hydra attenuata. Treatment with 20 mM LiCl inhibits commitment to nerve cells, treatment with 1 mM LiCl inhibits commitment to nematocytes. However, LiCl does not prevent stem cells committed to the nematocyte pathway from dividing and differentiating into nests of nematocytes. Following LiCl treatment, determination to nerve cells and nematocytes is triggered again. Commitment to nerve cells is strongly stimulated within the first 3 h following pulse treatment with LiCl if the animals have been fed immediately prior to treatment. In Hydra exposed to LiCl for 10 days the stem cell density is reduced by at least 90% of the initial value, and nematocytes are almost completely missing, whereas the density of nerve cells is within the normal range in animals with normal morphology. Animals which developed a transverse constriction in the middle of the body axis contain a 1.7-fold higher nerve cell density in the lower part than is observed in control animals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00385680

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10

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The fractionation of aHydra-derived inhibitor into head and foot inhibitors may be an artefact (1983)

Berking, Stefan

Springer

Development genes and evolution 192 (1983), S. 327-332

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ISSN: 1432-041X

Keywords: Hydra ; Morphogen ; Inhibitor I ; Head inhibitor ; Foot inhibitor

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary A fraction has been purified from crude extracts ofHydra, termed inhibitor I, which inhibits budding as well as head and foot regeneration. This fraction has been proposed by others to contain (at least) two substances, a head inhibitor (HI) and a foot inhibitor (FI), which preferentially inhibit head and foot regeneration respectively. The present study indicates that the reported fractionation is an artefact produced by the chromatographic procedure used. Substances can be eluted from virgin Dowex 50 which preferentially inhibit head regeneration. These substances are formed in the resin if left standing in its hydrogen form. Further, we have not been able to confirm that the extract from heads preferentially inhibits head regeneration and the extract from feet preferentially inhibits foot regeneration. Rather it appears that the inhibitor I is contained both in the head and in the foot.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00848812

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