前苏联专利SU1519522A3 Method of producing fertilization-fit sex products of adult fish at any season

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专利摘要:
The invention relates to a process for obtaining ready-for-fertilization sexual products from sexually mature fish in a period independent of their natural spawning season, in which actual stage of ripening is determined by probing of sexual products [sperm or eggs], fish not yet ripe for ovulation are separated from ripe fish, compounds of hormonal effect are administered to fish, and after the ovulation sexual products are obtained from the fish or from their environment. In the process according to the invention a nonapeptide-C1-4-alkyl-amide or a decapeptide amide of the general formula (I), Glp-His-Trp-Ser-Tyr-X1-X2-X3-Pro-X4 (I) wherein X1 is a glycyl group or a D-isomer of any natural or synthetic amino acid group, X2 represents an L-amino acid group having 1 to 4 carbon atoms in the side chain, L-phenyl-alanyl or L-tryptophyl group, X3 represents an L-amino acid group having a C1-4 alkyl or C2-4 alkyl-amide side chain, X4 is a glycine-amide or a C1-4 alkyl-amide group, as well as salts or metal-complexes of these compounds are administered to fish in a dose of 0.1 mu g to 5 mg, and to fish not yet ripe for ovulation the above quantities are administered in at least 2 but at most 12 portions, wherein the last dose used is at least the same or advantageously at least 1.5 times higher than the previous one. The process according to the invention makes possible the obtaining of ripe sexual products ready for natural or artificial fertilization from any fish species in any period, independently of the natural spawning season of fish.
公开号:SU1519522A3
申请号:SU843827994
申请日:1984-12-21
公开日:1989-10-30
发明作者:Гулиаш Тамаш；Хорват Анико；Кери Дьердь；Николич Карой；Секе Балаж；Теплан Иштван
申请人:Кезпонти Валто-Еш Хительбанк Рт, Инновациош Алап (Инопредприятие)；
IPC主号:

专利说明:

one
(21) 3827994 / 28-13
(22) 12/21/84
(31) 4457/83
(32) 12/23/83
(33) neither
(46) 10/30/89. Bul No. 40
(71) Kozponti Valto-Yesh Hitsil Bank of RT, Iinovatsios Alap (HU)
(72) Tamash Guliash, Aniko Horvat, György Carey, Károly Nikolić, Baláž Söke and Istvan Teplan (HU)
(53) 639.3.034 (088.8)
(56) Agriculture abroad,
1978, No. 1, p. 43-44.
Aquaculture, 1983, No. 35, 1985, p. 173-176.
(54) A METHOD FOR OBTAINING FITTED PRODUCTS FOR FERTILIZATION IN SEXUALLY GROWN FISH AT ANY TIME OF THE YEAR (57) The invention relates to fish farming, aimed at improving the quality of the obtained sexual products and the possibility of their production in fish of various species. To this end, nonapeptide - C, -C4-alkylamides or decapeptide-amides of the general formula Glp-His-Trp-Ser-Tyr-X-Xj-X-Pro-X. X -p-Phe, D-Trp, D-ala, D-leu, D-Ser; Xj. Trp, Phe, Leu; X, - Gin or Leu; X is Gly NHj or C, -C ((. - alkyl NHj, or their salts. The compound is administered periodically with doses ranging from 2 to 15. The amount of doses is set in accordance with the data given in Table 1, while the value of the last dose is equal to or 1.5 times the previous one. 2 Tab.
Cl
The invention relates to fish farming, in particular to a method for the production of genital products in mature fish at any time of the year, regardless of the natural spawning period.
The sex activity of fish of both sexes is regulated by gonadotropins released from the adenohypophysis, which contribute to the morphological and functional development of the sex glands (old), their gametogenetic
(Yce- and sperm-producing) activity and secretion of sex hormones.
In fish, the adenohypophysis of both sexes produces two identical gonadotropins: one is designated FSH (follicle-stimulating hormone), the other is LH (luteinizing hormone).
Gonadotropins are not specific to the sexes, since the same FSH promotes gametogenetic to
O4
tivnostn both in males and females; the same LH stimulates the secretion of the andro gene in males and, in females, the strontium or progesterone, both FSH and I.H are glycoproteins that have a specific specificity for fish.
The function of the endocrine system is coordinated by Gipofie. In addition, it coordinates the activity of the endocrine and nervous systems, primarily through the vegetative cell nucleus, which forms the lower part of the 1-hypothalamus.
Gipofie using specific specific troposhorms also regulates the process of reproduction. In natural conditions, ovulation in fish occurs in a specific environment for this particular species, ovulatory ripening fish eggs do not spontaneously sweep, but are in a state of forced rest, up to a more or less prolonged establishment of environmentally suitable ovulation conditions.
This fish-specific adaptation to breeding conditions is regulated jointly by the pituitary and the central nervous system. In such a resting state, little gonadotropin is released into the blood of fish.
For the emergence and formation of an environment suitable for spawning, a certain length of time is required (for example, late autumn or early summer). This means that the reproductive (reproducing) regulation mechanism in fish makes it possible to adapt the reproduction process to the external environment. This regulation is the result of coordinating teamwork between the hypothalamus and pituitary functions.
The ejection of certain tropohormones of the adenohypophysis is regulated by neurohormones, which are released on the hypothalamus terminal cells going to the individual dramas, and immediately resorb in the so-called portal capillaries and enter the sinus of the adenohypophysis with blood.
All known neurohormones are oligopeptides or polypeptides.
Neuron hormones that stimulate the secretion of tropoghormones are referred to as the releasing factor (RF);
neurohormones supplying the secretion of hormones, as the inhibitory factor (IF).
For all neurohormones, it is distinctive that their actions in .hypophysektomierten animals correspond to the action that occurs after the introduction of the corresponding
tropogormone.
The basophilic planes of the pituitary of fish have differences due to the season: their number decreases during the spawning period.
In the process of adaptation to the environment, 11 hormones (RH) are released, which with the blood flow into the pituitary gland and there regulate the emission of troposhorms in
blood.
Thus, fish obtain information about the existence of an environment suitable for spawning, due to which the LH / RH hormone-regulated hormone luteiiiziruyushchy hormone in the hypothalamus activates the pituitary gland and the release of gonadotropin into the blood, resulting in arousal of ovulation.
When an external environment is perceived by the fish, providing great opportunities for the survival of the offspring, impulses arise which are transmitted through the sense organs to the endocrine system of the glands,
and this mechanism activates the repressed system (reproducing) in the forced state.
Neurohormones are extremely interspecific: fish LH / RH does not have the same sequence as mammalian LH / RH and has the same small effect as mammalian LH / RH on fish.
The use of the pituitary method (introduction of the pituitary gland to fish by injection) makes it possible to induce artificial reproduction of fish.
For hormonal abuse, the pituitary glands selected from mature or nearly mature carps are preserved. Native hormones of another
origin did not bring a single - Hoi o positive result.
The carp hypophysis is used in breeding numerous species of fish.
51
The exception is fish that are alien to common systematic carp, for example sturgeon, for the stimulation of which the pituitary glands of the same species of fish are used. Pituitary glands are taken from mature fish, dehydrated with acetone and dried at room temperature for 24 hours, then crushed in a mortar and dissolved in saline.
The resulting solution is injected into the muscle tissue of fish, and in small fish and in fish with more loose catfish, an injection is made into the abdominal cavity.
The pituitary injection method does not give good results in all cases. The main reason for this is that it is not always known in what state of maturity the fish from which the pituitary glands are taken, it is therefore unknown and the number of gonadotropins contained in them. The hormones of carp pituitary act only on carps and on genetically close to them in appearance of fish, therefore numerous economically important species of fish cannot reproduce at all by injection of the pituitary gland or reproduce with insignificant efficiency.
With the help of the pituitary glands under the condition of breeding on a large scale, only the LH-action has been achieved at present, the FSH-action is unrealizable for the reason indicated above (it is not known in what state of maturity the fish from which the pituitary glands are taken).
The lack of FSH action allows hypophysis to be used only for the induction of fish with ovulatory mature caviar.
In addition, the possibility of induced artificial reproduction when using the pituitary gland is limited by the length of time that constitutes the natural spawning period, which leads to a limited use of production capacity.
The production of pituitary glands in fish is associated with the destruction of potentially very valuable and limited number of producers, which is also a disadvantage of the known method.
It is known to use other compounds with hormonal
19522
action and synthetic LH / RH hormones. However, obtained by using them;
ten
The arms are surrounded by a follicular membrane that prevents them from fertilizing and obtaining new offspring. The field of application of this method is limited to carp fish and and salmon.
0
0
The aim of the invention is to improve the quality of the obtained sexual products and the possibility of their production in fish of various species.
5 This goal is achieved by introducing into the organism of mature fish new Gona-Doliberin derivatives, since it is known that the FSH-LH / RH allocated to the Dotropins in the hypothalamus of the fish of the gono0 are successfully replaced by the indicated compounds. Injection of these compounds causes the development of sperm and eggs, as well as ovulism (c).
5 The essence of the method for obtaining fertilizer-friendly sexual products in mature fish at any time of the year is that the eggs and eggs are examined in fish and their state of health is determined by the biological maturity of the fish.
Ovulatory Zrelps fish are selected, separated from the immature ones, and administered to them by injection a compound with a hormonal action, which is a nonapeptide C: 4 al to il amides or decapeptides of the general formula
Clp-His-Trp-Ser-Tyr-X, -X-Xj-Pro-X,
where X, -.D-Phe, D-Trp, D-ala, D-leu,
D-Ser;
Xj - Trp, Phe, or Leu; Xj - Gin or Leu; - X. - GlyNH2 or C, .4-alkyl NH.
Salts of these compounds can also be added to fish.
The compound is administered to fish sequentially in doses ranging from 2 to 15.
The dose, depending on the type of compound, is from 0.1 to 500 µg / kg of body weight of the fish, while the value of the last dose is equal to the value of the previous dose.
5 or 1.5 times greater.
I
Since the compounds used are non-toxic, a dose above does not cause any harm.
When processing fish, the number of injections in each case depends on how well the fish is prepared for spawning: the closer this condition is, the less doses of the drug should be injected.
After the injection, sex products are taken from the fish, for example, by decanting, and the fish are considered mature if the male sperm is activated immediately after contact with water, and in the females if the cell debris cells are in the immediate vicinity of the membrane yatsa Selected genital products are used in artificial fish farming.
The compounds used according to the described method are obtained by using the solid phase peptide synthesis methods.
Depending on the structure of the desired compound, in the case of peptidacelamides, they are derived from chloromethylated polystyrene divinyl benzene resins, in the case of peptide acid amides, from beeshydrylamine resins
Separate amino acids in the form of their N-n-butyloxycarbonyl derivatives can be gradually combined with the resin using dicyclohexylcarbodimide, or diisopropylcarbamide, or by connecting through active esters.
The desired product can be removed from the solid support by acid or alkali cleavage. Depending on the chemical nature of the variable parts of the amino acids, compounds of the general formula can also be obtained by appropriate combinations of gradual (stepwise) condensation and fragment condensation of currently known amino acids.
The described method has the following advantages:
allows artificial breeding of fish, genetically alien to carp, which so far n has been able to reproduce due to the lack of specific pituitary of fish and their synthetic analogues;
can be applied in the wide biological boundaries of the environment, since the compounds of the general formula exert their action under various biological conditions;
five
0
five
0
five
0
five
0
five
allows more complete use of production capacity.
The effect of the drugs used in the process is the same as that of fish’s own gonadotropins, and these drugs are inter-specific, active in the case of genetically alien to one another fish.
Example 1. Artificial reproduction of sturgeon (Acipenser ruthenus). For this purpose, mature fish are taken from a population of fish from a given habitat and transported to the breeding station. Fish are sorted by sex, then the maturity of the eggs (females' eggs) is determined, the mature ones are those with cell nuclei in the periphery. The degree of maturity of the males is not determined, since in the population of fish of a given habitat the sex products of the males and females are almost in an identical state.
Fish that are ovulated (males and females) are injected with an injection of a decapeptide of formula
Glp-His-Trp-Ser-Tyr-D-Phe-Leu-Gln-Pro-Gly-NHj in a single dose of 70 μg / fish.
If the fish are not ripe for ovulation, they are kept at the natural spawning temperature, the compounds are introduced sequentially, twice, at most ten times, in doses of 10 µg of the indicated compound until the cell nuclei move from the center to the periphery; the number of treatments depends on the degree of maturity of the fish.
The ripening process takes place at 15 ° C 100-650 degree days.
28 hours after the administration of the last dose, ovulation occurs, and in the next 50 minutes the sexual products of the fish are obtained.
PRI mme R 2. Induce the spawning of carp (Cyprinus carpio Z).
At any time of the year and at any temperature, water is taken from a population of mature fish that are transported for breeding to the station. The fish are separated by sex and the state of maturity is determined, as in Example 1. If the fish is mature, then the decapeptide of the formula
Glp-His-Trp-Ser-Tyr-D-Phe-Trp- .eu-Pro-Gly NH. Hell-ripened fish are kept at the natural temperature of spawning and treated at least twice or at most (15 times) with the indicated compound in doses of 5 µg / fish.
The ripening process at 22 ° C ranges from 100 to 750 degrees below.
250 degrees after the last dose, ovulation occurs. Within 50 minutes in fish strain off the sexual products.
EXAMPLE 3 Induction of spawning in perches (Regsa fluviatilis) is carried out, for which fish are selected as in Example 1, and then the males and females are treated with a decapeptide of the formula Glp-His-Trp-Ser-D -Phe- Leu-Gln-Pro-Gly NH in a single dose of 20 µg / fish.
Immature fish are kept at the temperature of spawning and are treated at least twice or tenfold; input of the indicated compound at a dose of 2 μg / fish. The ripening process takes from 100 to 400 degrees. 30 hours after the last dose, spawning occurs. Perches spawn in the basins themselves, which eliminates the release of genital products.
EXAMPLE 4 Mackerel (Trachurus trachurus) was artificially propagated, for which specimens of 24 cm in length were taken from the Adriatic mackerel caught in a month and transported to the breeding station. Fish of the size mentioned are sexually mature.
A single dose (10 µg) of a compound of formula Glp-His-Trp-Ser-Tyr-D-Phe-Leu-Gln-Pro-Gly NH is administered by injection to the fish.
At a temperature of 21 ° C, ovulation occurs within 24 hours.
Purification of the genital products is carried out for 2 hours.
PRI me R 5. Conduct induced reproduction of pike (Esox lucius)
Fish are selected from the population, transported, divided by sex, as in Example 1. Matured ovulation fish are given the same compound with hormonal properties as in Example 4 ..,
five
0
five
g
) Q
0
with
0
five
0
five
Soelinenpe t pts twice, a-Mfie more than 10-fold n dose of 5 µg / fish.
C) (1 time of fish at 1-1 ° C takes from 70 to 350 degree-longs. After 39 hours after the last dose, ovulation occurs. In the second 5 hours, sex products are drained.
PRI me R 6. Conduct induced spawning of the silver carp (Nuro-phalnychtys molitrix).
Unlike example 1, decapeptide Glp-Nl s-Trp-Ser-Tyr-D-Plie-Trp-Leu-Pro-Gly-Nli, was administered to ripened fish in a single dose of 100 µg / / fish. Fish not matured for ovulation are kept at the natural temperature of spawning and are treated 2 to 15 times (depending on the degree of maturity) with the indicated compound, which is administered in a dose of 10 µg / fish. In this case, the magnitude of the last dose is 15 µg / fish. The process of maturation at 23 ° C takes from 150 to 850 degrees. After 250 degree days after the last dose, ovulation occurs. Then the genital products are decanted.
Further examples of the implementation of the method using a compound with the formula are given in Table 1, indicating the doses that must be entered to obtain the desired result.
The table lists only the modified amino acid members in the compound of the general formula
Glp-His-Trp-Ser-Tyr-X -X -X, - Pro-X.
According to the examples given in Table 1, the experiments were carried out with a sterile needle. Ten fish were used for each dose and each compound. The table shows data showing the percentage of fish that ovulated after administration of a compound with hormonal activity. one
The compounds listed in Table 1 under Nos. 1, 4 and 5 were purified by chromatography, therefore, in these examples, the method is carried out using salts of 3Tifx compounds.
From the table it can be seen that each compound acts in specific doses, ranging from 0.1 to 500.0 µg / fish.
Table 2 shows the physicochemical constants of the compounds used to carry out the method.

权利要求:
Claims (1)
[1]
Invention Formula
A method of obtaining fertilizer-friendly sexual products in mature fish at any time of the year, which involves determining the biological maturity of fish by examining their sexual products, separating ovulatory immature fish from mature ones, administering to mature fish by injecting a compound with hormonal action and collecting the resulting sexual products characterized in that, in order to improve the quality of the obtained sexual products and the possibility of their production in fish of various species, as a compound with hormonal Nonapeptide - C-C-alkylamides or decapeptidamides of the general formula
X
Glp-His-Trp-Ser-Tyr-X, -Pgo
four
Where
X, D-Phe, D-Trp, D-ala, D-leu, D-Ser;
Xj - Trp, Phe, Leu;
Xj, - Gin or Leu;
Gly NHi or C -C-alkyl NH, or their salts, the compounds are administered sequentially with doses ranging from 2 to 15, the amount of doses set in accordance with the data given in Table 1, the value of the last dose or it is equal to the previous one, or it is 1.5 times larger.
Table 1
IZZI
Tgr Leu des Gly
5D-Phe Gln des Gly ° GnRH-ethylamide
6KBe Leu GnRH
7 Phe Gln GnRH
8Trp Gin des Gly GnRH-ethylamed
9D-Trp Leu® GnRH
10D-ala Gln GnRH
11D-Leu Gin GnRH
12O-tert-but-D-Ser - G In -GnRH
167-164 -5.9 0.5 0.1 H. acetic acid
acid
181-183 -10.2 1.0 10% acetic acid
acid 175-178 -19.0 0.1 0.1 n. vinegar
acid 182 -21.0 0.1 0.1 n. vinegar
acid 179-180 -29.0 0.1 0.1 n, acetic acid
acid 168-170 -15,5 0,1 0,1 n, acetic acid
acid 182 -32.3 1.0 0.1 n. vinegar
acid 183-185 -35.0 1.0 0.1 n. vinegar
acid 178-179 -23.0 1.0 0.1 n. vinegar
acid
Compiled by S. Filippov Editor A. Makovska Tehred M. Khodanich Proofreader S. Cherni
Order 6615/59
Circulation 470
V11IIPI State inventions and discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5
R
Continued table. 2 5
0,69 0,55 0,57 0,63
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同族专利:

公开号 | 公开日

AU564967B2|1987-09-03|

US4647552A|1987-03-03|

BE901308A|1985-06-19|

ZA849986B|1985-10-30|

SE461631B|1990-03-12|

JPS60227617A|1985-11-12|

FI845052L|1985-06-24|

IT1178776B|1987-09-16|

FR2556970A1|1985-06-28|

GR82555B|1985-04-23|

ES8801084A1|1988-01-01|

FR2556970B1|1989-03-03|

NO845192L|1985-06-24|

IT8424184D0|1984-12-21|

IL73905D0|1985-03-31|

SE8406555L|1985-06-24|

AT391811B|1990-12-10|

DK624984A|1985-06-24|

FI81722C|1990-12-10|

CS262420B2|1989-03-14|

ES538987A0|1988-01-01|

FI81722B|1990-08-31|

SE8406555D0|1984-12-21|

NO168926B|1992-01-13|

DK624984D0|1984-12-21|

FI845052A0|1984-12-20|

HU189394B|1986-06-30|

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HU187503B|1983-03-29|1986-01-28|Magyar Tudomanyos Akademia,Hu|Process for preparing gonadoliberine derivatives containing beta-aspartyl group|

US4530920A|1983-11-07|1985-07-23|Syntex Inc.|Nonapeptide and decapeptide analogs of LHRH, useful as LHRH agonist|HU193607B|1985-07-18|1987-11-30|Innofinance Altalanos Innovaci|Process for production of sexual products applyable for natural or artificial insemination for mammates|

HU199694B|1988-05-10|1990-03-28|Innofinance Altalanos Innovaci|Process for producing citostatic pharmaceutical compositions containing gonadoliberin derivatives|

IL87982D0|1988-10-10|1989-03-31|Israel Oceanographic & Limnolo|Compositions and methods for manipulating ovulation and spawning in fish|

US5643877A|1994-12-05|1997-07-01|University Of Maryland Biotechnology Institute|Compounds comprising gonadotropin releasing hormoneand methods for controlling reproduction in fish|

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EP1866420A2|2005-02-28|2007-12-19|Universiteit Leiden|The use of cell implants in bladder and gut of non-human animals for the production of peptides|

CN106069899B|2016-06-15|2021-12-28|中国水产科学研究院长江水产研究所|Method for realizing natural mating and oviposition of Acipenser dabryanus through artificial regulation|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

HU834457A|HU189394B|1983-12-23|1983-12-23|Method for producing spermatozoa suitable for fertilization from mature fishes|

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