slovo | definícia |
genesis (mass) | genesis
- pôvod |
genesis (encz) | genesis,geneze n: Zdeněk Brož |
genesis (encz) | genesis,vznik n: Zdeněk Brož |
genesis (encz) | genesis,zrod n: Zdeněk Brož |
Genesis (gcide) | Genesis \Gen"e*sis\, n. [L., from Gr. ge`nesis, fr. the root of
gi`gnesqai to beget, be born; akin to L. genus birth, race.
See Gender.]
[1913 Webster]
1. The act of producing, or giving birth or origin to
anything; the process or mode of originating; production;
formation; origination.
[1913 Webster]
The origin and genesis of poor Sterling's club.
--Carlyle.
[1913 Webster]
2. The first book of the Old Testament; -- so called by the
Greek translators, from its containing the history of the
creation of the world and of the human race.
[1913 Webster]
3. (Geom.) Same as Generation. Genet |
genesis (wn) | genesis
n 1: a coming into being [syn: genesis, generation]
2: the first book of the Old Testament: tells of Creation; Adam
and Eve; the Fall of Man; Cain and Abel; Noah and the flood;
God's covenant with Abraham; Abraham and Isaac; Jacob and
Esau; Joseph and his brothers [syn: Genesis, {Book of
Genesis}] |
| podobné slovo | definícia |
abiogenesis (encz) | abiogenesis,abiogeneze Zdeněk Brožabiogenesis,prvoplození Zdeněk Brož |
agenesis (encz) | agenesis,ageneze Zdeněk Brož |
autogenesis (encz) | autogenesis,samoplození n: Zdeněk Brož |
biogenesis (encz) | biogenesis,biogeneze n: Zdeněk Brož |
carcinogenesis (encz) | carcinogenesis,karcinogeneze [eko.] Proces vzniku rakoviny,
pravděpodobně sestávající z řady kroků. Zasahuje genom nebo molekulární
kontrolní mechanismy cílových buněk, což vede ke vzniku populace buněk
změněných. RNDr. Pavel Piskačcarcinogenesis,rakovina v živé tkáni Zdeněk Brož |
cenogenesis (encz) | cenogenesis, n: |
cytogenesis (encz) | cytogenesis,vznik a vývoj buněk Zdeněk Brož |
digenesis (encz) | digenesis,metageneze Zdeněk Brož |
dysgenesis (encz) | dysgenesis, n: |
epigenesis (encz) | epigenesis,epigeneze Zdeněk Brož |
gametogenesis (encz) | gametogenesis, n: |
glycogenesis (encz) | glycogenesis,glykogeneze n: Ondřej Šeda |
gynogenesis (encz) | gynogenesis, n: |
haematogenesis (encz) | haematogenesis,krvetvorba n: Zdeněk Brož |
haemogenesis (encz) | haemogenesis,hemogeneze Zdeněk Brož |
hematogenesis (encz) | hematogenesis, n: |
hemogenesis (encz) | hemogenesis, n: |
heterogenesis (encz) | heterogenesis,heterogeneze Zdeněk Brož |
hypnogenesis (encz) | hypnogenesis,hypnogeneze Zdeněk Brož |
kainogenesis (encz) | kainogenesis, n: |
kenogenesis (encz) | kenogenesis, n: |
metagenesis (encz) | metagenesis, n: |
monogenesis (encz) | monogenesis,monogeneze Zdeněk Brož |
morphogenesis (encz) | morphogenesis,morfogeneze Zdeněk Brož |
mutagenesis (encz) | mutagenesis, n: |
neurogenesis (encz) | neurogenesis,neurogeneze Zdeněk Brož |
ontogenesis (encz) | ontogenesis,ontogeneze n: Zdeněk Brož |
oogenesis (encz) | oogenesis,ovogeneze n: Zdeněk Brož |
organogenesis (encz) | organogenesis,organogeneze [eko.] RNDr. Pavel Piskač |
osteogenesis imperfecta (encz) | osteogenesis imperfecta, n: |
palingenesis (encz) | palingenesis, n: |
parthenogenesis (encz) | parthenogenesis,partenogeneze n: [bio.] vývin nového jedince z samičího
vajíčka neoplozeného samčí pohlavní buňkou Zdeněk Brožparthenogenesis,samobřeznost n: Zdeněk Brožparthenogenesis,samobřezost n: [bio.] vývin nového jedince z samičího
vajíčka neoplozeného samčí pohlavní buňkou Petr Prášek |
pathogenesis (encz) | pathogenesis,patogeneze n: Zdeněk Brož |
pedogenesis (encz) | pedogenesis,pedogeneze [eko.] RNDr. Pavel Piskač |
phylogenesis (encz) | phylogenesis,fylogeneze n: [eko.] RNDr. Pavel Piskač |
spermatogenesis (encz) | spermatogenesis,spermatogeneze Zdeněk Brož |
synphylogenesis (encz) | synphylogenesis,synfylogenese [eko.] RNDr. Pavel Piskač |
teratogenesis (encz) | teratogenesis, n: |
xenogenesis (encz) | xenogenesis, n: |
Abiogenesis (gcide) | Abiogenesis \Ab`i*o*gen"e*sis\, n. [Gr. 'a priv. + bi`os life +
ge`nesis, origin, birth.] (Biol.)
The supposed origination of living organisms from lifeless
matter; such genesis as does not involve the action of living
parents; spontaneous generation; -- called also abiogeny,
and opposed to biogenesis.
[1913 Webster]
I shall call the . . . doctrine that living matter may
be produced by not living matter, the hypothesis of
abiogenesis. --Huxley,
1870.
[1913 Webster] |
Agamogenesis (gcide) | Agamogenesis \Ag`a*mo*gen"e*sis\, n. [Gr. ? unmarried ('a priv.
+ ? marriage) + ? reproduction.] (Biol.)
Reproduction without the union of parents of distinct sexes:
asexual reproduction.
[1913 Webster] |
Agenesis (gcide) | Agenesis \A*gen"e*sis\, n. [Gr. 'a priv. + ? birth.] (Physiol.)
Any imperfect development of the body, or any anomaly of
organization.
[1913 Webster] |
Amphigenesis (gcide) | Amphigenesis \Am`phi*gen"e*sis\, n. [Gr. 'amfi` + ? generation.]
(Biol.)
Sexual generation; amphigony.
[1913 Webster] |
Amylogenesis (gcide) | Amylogenesis \Am`y*lo*gen"e*sis\, n. [Amylum + genesis.]
The formation of starch.
[Webster 1913 Suppl.] |
anthropogenesis (gcide) | anthropogenesis \anthropogenesis\ n.
1. 1 the evolution or genesis of the human race.
Syn: anthropogeny.
[WordNet 1.5] |
Autogenesis (gcide) | Autogenesis \Au`to*gen"e*sis\, n. [Auto- + genesis.] (Biol.)
Spontaneous generation.
[1913 Webster] |
Biogenesis (gcide) | Biogenesis \Bi`o*gen"e*sis\, Biogeny \Bi*og"e*ny\, n. [Gr. bi`os
life + ?, ?, birth.] (Biol.)
(a) A doctrine that the genesis or production of living
organisms can take place only through the agency of
living germs or parents; -- called also biogeny; --
opposed to abiogenesis.
(b) Life development generally.
[1913 Webster]
2. the production of a chemical compound by a living
organism.
Syn: biosynthesis.
[WordNet 1.5] |
Blastogenesis (gcide) | Blastogenesis \Blas`to*gen"e*sis\, n. [Gr. blasto`s sprout + E.
genesis.] (Biol.)
Multiplication or increase by gemmation or budding.
[1913 Webster] |
caenogenesis (gcide) | Kenogenesis \Ken`o*gen"e*sis\, n. [Gr. ? new + E. genesis.]
(Biol.)
Modified evolution, in which nonprimitive characters make
their appearance in consequence of a secondary adaptation of
the embryo to the peculiar conditions of its environment; --
distinguished from palingenesis. [Written also
cenogenesis and c[ae]nogenesis.]
[1913 Webster]cenogenesis \cen`o*gen"e*sis\ n. [Gr. ? new + E. genesis.]
(Biol.)
The introduction during embryonic development of characters
or structure not present in the earlier evolutionary history
of the strain or species (as addition of the placenta in
mammalian evolution); a modified evolution, in which
nonprimitive characters make their appearance in consequence
of a secondary adaptation of the embryo to the peculiar
conditions of its environment; -- distinguished from
palingenesis. [Also spelled caenogenesis and formerly
kenogenesis.]
[WordNet 1.5 + 1913 Webster] |
cell genesis (gcide) | Cell \Cell\, n. [OF. celle, fr. L. cella; akin to celare to
hide, and E. hell, helm, conceal. Cf. Hall.]
1. A very small and close apartment, as in a prison or in a
monastery or convent; the hut of a hermit.
[1913 Webster]
The heroic confessor in his cell. --Macaulay.
[1913 Webster]
2. A small religious house attached to a monastery or
convent. "Cells or dependent priories." --Milman.
[1913 Webster]
3. Any small cavity, or hollow place.
[1913 Webster]
4. (Arch.)
(a) The space between the ribs of a vaulted roof.
(b) Same as Cella.
[1913 Webster]
5. (Elec.) A jar of vessel, or a division of a compound
vessel, for holding the exciting fluid of a battery.
[1913 Webster]
6. (Biol.) One of the minute elementary structures, of which
the greater part of the various tissues and organs of
animals and plants are composed.
[1913 Webster]
Note: All cells have their origin in the primary cell from
which the organism was developed. In the lowest animal
and vegetable forms, one single cell constitutes the
complete individual, such being called unicelluter
orgamisms. A typical cell is composed of a semifluid
mass of protoplasm, more or less granular, generally
containing in its center a nucleus which in turn
frequently contains one or more nucleoli, the whole
being surrounded by a thin membrane, the cell wall. In
some cells, as in those of blood, in the am[oe]ba, and
in embryonic cells (both vegetable and animal), there
is no restricting cell wall, while in some of the
unicelluliar organisms the nucleus is wholly wanting.
See Illust. of Bipolar.
[1913 Webster]
Air cell. See Air cell.
Cell development (called also cell genesis, {cell
formation}, and cytogenesis), the multiplication, of
cells by a process of reproduction under the following
common forms; segmentation or fission, gemmation or
budding, karyokinesis, and endogenous multiplication. See
Segmentation, Gemmation, etc.
Cell theory. (Biol.) See Cellular theory, under
Cellular.
[1913 Webster] |
cenogenesis (gcide) | Kenogenesis \Ken`o*gen"e*sis\, n. [Gr. ? new + E. genesis.]
(Biol.)
Modified evolution, in which nonprimitive characters make
their appearance in consequence of a secondary adaptation of
the embryo to the peculiar conditions of its environment; --
distinguished from palingenesis. [Written also
cenogenesis and c[ae]nogenesis.]
[1913 Webster]Recapitulation \Re`ca*pit`u*la"tion\
(r[=e]`k[.a]*p[i^]t"[-u]*l[=a]"sh[u^]n), n. [LL.
recapitulatio: cf. F. recapitulation.]
1. The act of recapitulating; a summary, or concise statement
or enumeration, of the principal points, facts, or
statements, in a preceding discourse, argument, or essay.
[1913 Webster]
2. (Zool.) That process of development of the individual
organism from the embryonic stage onward, which displays a
parallel between the development of an individual animal
(ontogeny) and the historical evolution of the species
(phylogeny). Some authors recognize two types of
recapitulation, palingenesis, in which the truly
ancestral characters conserved by heredity are reproduced
during development; and cenogenesis (kenogenesis or
coenogenesis), the mode of individual development in
which alterations in the development process have changed
the original process of recapitulation and obscured the
evolutionary pathway.
[PJC]
This parallel is explained by the theory of
evolution, according to which, in the words of
Sidgwick, "the developmental history of the
individual appears to be a short and simplified
repetition, or in a certain sense a recapitulation,
of the course of development of the species."
Examples of recapitulation may be found in the
embryological development of all vertebrates. Thus
the frog develops through stages in which the embryo
just before hatching is very fish-like, after
hatching becomes a tadpole which exhibits many
newt-like characters; and finally reaches the
permanent frog stage. This accords with the
comparative rank of the fish, newt and frog groups
in classification; and also with the succession
appearance of these groups. Man, as the highest
animal, exhibits most completely these phenomena. In
the earliest stages the human embryo is
indistinguishable from that of any other creature. A
little later the cephalic region shows gill-slits,
like those which in a shark are a permanent feature,
and the heart is two-chambered or fish-like. Further
development closes the gill-slits, and the heart
changes to the reptilian type. Here the reptiles
stop, while birds and mammals advance further; but
the human embryo in its progress to the higher type
recapitulates and leaves features characteristic of
lower mammalian forms -- for instance, a distinct
and comparatively long tail exists. Most of these
changes are completed before the embryo is six weeks
old, but some traces of primitive and obsolete
structures persist throughout life as "vestiges" or
"rudimentary organs," and others appear after birth
in infancy, as the well-known tendency of babies to
turn their feet sideways and inward, and to use
their toes and feet as grasping organs, after the
manner of monkeys. This recapitulation of ancestral
characters in ontogeny is not complete, however, for
not all the stages are reproduced in every case, so
far as can be perceived; and it is irregular and
complicated in various ways among others by the
inheritance of acquired characters. The most special
students of it, as Haeckel, Fritz M["u]tter, Hyatt,
Balfour, etc., distinguish two sorts of
recapitulation palingenesis, exemplified in
amphibian larvae and coenogenesis, the last
manifested most completely in the metamorphoses of
insects. Palingenesis is recapitulation without any
fundamental changes due to the later modification of
the primitive method of development, while in
coenogenesis, the mode of development has suffered
alterations which obscure the original process of
recapitulation, or support it entirely.
--Encyclopedia
Americana,
1961.
[PJC]cenogenesis \cen`o*gen"e*sis\ n. [Gr. ? new + E. genesis.]
(Biol.)
The introduction during embryonic development of characters
or structure not present in the earlier evolutionary history
of the strain or species (as addition of the placenta in
mammalian evolution); a modified evolution, in which
nonprimitive characters make their appearance in consequence
of a secondary adaptation of the embryo to the peculiar
conditions of its environment; -- distinguished from
palingenesis. [Also spelled caenogenesis and formerly
kenogenesis.]
[WordNet 1.5 + 1913 Webster] |
Chondrogenesis (gcide) | Chondrogenesis \Chon`dro*gen"e*sis\, n. [Gr. cho`ndros cartilage
+ genesis.] (Physiol.)
The development of cartilage.
[1913 Webster] |
coenogenesis (gcide) | Recapitulation \Re`ca*pit`u*la"tion\
(r[=e]`k[.a]*p[i^]t"[-u]*l[=a]"sh[u^]n), n. [LL.
recapitulatio: cf. F. recapitulation.]
1. The act of recapitulating; a summary, or concise statement
or enumeration, of the principal points, facts, or
statements, in a preceding discourse, argument, or essay.
[1913 Webster]
2. (Zool.) That process of development of the individual
organism from the embryonic stage onward, which displays a
parallel between the development of an individual animal
(ontogeny) and the historical evolution of the species
(phylogeny). Some authors recognize two types of
recapitulation, palingenesis, in which the truly
ancestral characters conserved by heredity are reproduced
during development; and cenogenesis (kenogenesis or
coenogenesis), the mode of individual development in
which alterations in the development process have changed
the original process of recapitulation and obscured the
evolutionary pathway.
[PJC]
This parallel is explained by the theory of
evolution, according to which, in the words of
Sidgwick, "the developmental history of the
individual appears to be a short and simplified
repetition, or in a certain sense a recapitulation,
of the course of development of the species."
Examples of recapitulation may be found in the
embryological development of all vertebrates. Thus
the frog develops through stages in which the embryo
just before hatching is very fish-like, after
hatching becomes a tadpole which exhibits many
newt-like characters; and finally reaches the
permanent frog stage. This accords with the
comparative rank of the fish, newt and frog groups
in classification; and also with the succession
appearance of these groups. Man, as the highest
animal, exhibits most completely these phenomena. In
the earliest stages the human embryo is
indistinguishable from that of any other creature. A
little later the cephalic region shows gill-slits,
like those which in a shark are a permanent feature,
and the heart is two-chambered or fish-like. Further
development closes the gill-slits, and the heart
changes to the reptilian type. Here the reptiles
stop, while birds and mammals advance further; but
the human embryo in its progress to the higher type
recapitulates and leaves features characteristic of
lower mammalian forms -- for instance, a distinct
and comparatively long tail exists. Most of these
changes are completed before the embryo is six weeks
old, but some traces of primitive and obsolete
structures persist throughout life as "vestiges" or
"rudimentary organs," and others appear after birth
in infancy, as the well-known tendency of babies to
turn their feet sideways and inward, and to use
their toes and feet as grasping organs, after the
manner of monkeys. This recapitulation of ancestral
characters in ontogeny is not complete, however, for
not all the stages are reproduced in every case, so
far as can be perceived; and it is irregular and
complicated in various ways among others by the
inheritance of acquired characters. The most special
students of it, as Haeckel, Fritz M["u]tter, Hyatt,
Balfour, etc., distinguish two sorts of
recapitulation palingenesis, exemplified in
amphibian larvae and coenogenesis, the last
manifested most completely in the metamorphoses of
insects. Palingenesis is recapitulation without any
fundamental changes due to the later modification of
the primitive method of development, while in
coenogenesis, the mode of development has suffered
alterations which obscure the original process of
recapitulation, or support it entirely.
--Encyclopedia
Americana,
1961.
[PJC] |
Cytogenesis (gcide) | Cytogenesis \Cy`to*gen"e*sis\ (s?`t?-j?n"?-s?s), n. [Gr. ky`tos
hollow vessel + E. genesis.] (Biol.)
Development of cells in animal and vegetable organisms. See
Gemmation, Budding, Karyokinesis; also {Cell
development}, under Cell.
[1913 Webster] CytogenicCell \Cell\, n. [OF. celle, fr. L. cella; akin to celare to
hide, and E. hell, helm, conceal. Cf. Hall.]
1. A very small and close apartment, as in a prison or in a
monastery or convent; the hut of a hermit.
[1913 Webster]
The heroic confessor in his cell. --Macaulay.
[1913 Webster]
2. A small religious house attached to a monastery or
convent. "Cells or dependent priories." --Milman.
[1913 Webster]
3. Any small cavity, or hollow place.
[1913 Webster]
4. (Arch.)
(a) The space between the ribs of a vaulted roof.
(b) Same as Cella.
[1913 Webster]
5. (Elec.) A jar of vessel, or a division of a compound
vessel, for holding the exciting fluid of a battery.
[1913 Webster]
6. (Biol.) One of the minute elementary structures, of which
the greater part of the various tissues and organs of
animals and plants are composed.
[1913 Webster]
Note: All cells have their origin in the primary cell from
which the organism was developed. In the lowest animal
and vegetable forms, one single cell constitutes the
complete individual, such being called unicelluter
orgamisms. A typical cell is composed of a semifluid
mass of protoplasm, more or less granular, generally
containing in its center a nucleus which in turn
frequently contains one or more nucleoli, the whole
being surrounded by a thin membrane, the cell wall. In
some cells, as in those of blood, in the am[oe]ba, and
in embryonic cells (both vegetable and animal), there
is no restricting cell wall, while in some of the
unicelluliar organisms the nucleus is wholly wanting.
See Illust. of Bipolar.
[1913 Webster]
Air cell. See Air cell.
Cell development (called also cell genesis, {cell
formation}, and cytogenesis), the multiplication, of
cells by a process of reproduction under the following
common forms; segmentation or fission, gemmation or
budding, karyokinesis, and endogenous multiplication. See
Segmentation, Gemmation, etc.
Cell theory. (Biol.) See Cellular theory, under
Cellular.
[1913 Webster] |
cytogenesis (gcide) | Cytogenesis \Cy`to*gen"e*sis\ (s?`t?-j?n"?-s?s), n. [Gr. ky`tos
hollow vessel + E. genesis.] (Biol.)
Development of cells in animal and vegetable organisms. See
Gemmation, Budding, Karyokinesis; also {Cell
development}, under Cell.
[1913 Webster] CytogenicCell \Cell\, n. [OF. celle, fr. L. cella; akin to celare to
hide, and E. hell, helm, conceal. Cf. Hall.]
1. A very small and close apartment, as in a prison or in a
monastery or convent; the hut of a hermit.
[1913 Webster]
The heroic confessor in his cell. --Macaulay.
[1913 Webster]
2. A small religious house attached to a monastery or
convent. "Cells or dependent priories." --Milman.
[1913 Webster]
3. Any small cavity, or hollow place.
[1913 Webster]
4. (Arch.)
(a) The space between the ribs of a vaulted roof.
(b) Same as Cella.
[1913 Webster]
5. (Elec.) A jar of vessel, or a division of a compound
vessel, for holding the exciting fluid of a battery.
[1913 Webster]
6. (Biol.) One of the minute elementary structures, of which
the greater part of the various tissues and organs of
animals and plants are composed.
[1913 Webster]
Note: All cells have their origin in the primary cell from
which the organism was developed. In the lowest animal
and vegetable forms, one single cell constitutes the
complete individual, such being called unicelluter
orgamisms. A typical cell is composed of a semifluid
mass of protoplasm, more or less granular, generally
containing in its center a nucleus which in turn
frequently contains one or more nucleoli, the whole
being surrounded by a thin membrane, the cell wall. In
some cells, as in those of blood, in the am[oe]ba, and
in embryonic cells (both vegetable and animal), there
is no restricting cell wall, while in some of the
unicelluliar organisms the nucleus is wholly wanting.
See Illust. of Bipolar.
[1913 Webster]
Air cell. See Air cell.
Cell development (called also cell genesis, {cell
formation}, and cytogenesis), the multiplication, of
cells by a process of reproduction under the following
common forms; segmentation or fission, gemmation or
budding, karyokinesis, and endogenous multiplication. See
Segmentation, Gemmation, etc.
Cell theory. (Biol.) See Cellular theory, under
Cellular.
[1913 Webster] |
Digenesis (gcide) | Digenesis \Di*gen"e*sis\, n. [Pref. di- + genesis.] (Biol.)
The faculty of multiplying in two ways; -- by ova fecundated
by spermatic fluid, and asexually, as by buds. See
Parthenogenesis.
[1913 Webster] |
Dysgenesis (gcide) | Dysgenesis \Dys*gen"e*sis\, n. [Pref. dys- + genesis.] (Biol.)
A condition of not generating or breeding freely;
infertility; a form of homogenesis in which the hybrids are
sterile among themselves, but are fertile with members of
either parent race.
[1913 Webster] |
Electrogenesis (gcide) | Electrogenesis \E*lec`tro*gen"e*sis\, n. [Electro- + genesis.]
(Physiol.)
Same as Electrogeny.
[1913 Webster] |
Endogenesis (gcide) | Endogenesis \En`do*gen"e*sis\, n. [Endo- + genesis.] (Biol.)
Endogeny.
[1913 Webster] endogenetic |
Epigenesis (gcide) | Epigenesis \Ep`i*gen"e*sis\, n. [Pref. epi- + genesis.] (Biol.)
The theory of generation which holds that the germ is created
entirely new, not merely expanded, by the procreative power
of the parents. It is opposed to the theory of evolution,
also to syngenesis.
[1913 Webster] |
Epigenesist (gcide) | Epigenesist \Ep`i*gen"e*sist\, n. (Biol.)
One who believes in, or advocates the theory of, epigenesis.
[1913 Webster] |
Eugenesis (gcide) | Eugenesis \Eu*gen"e*sis\, n. [Pref. eu- + genesis.] (Biol.)
The quality or condition of having strong reproductive
powers; generation with full fertility between different
species or races, specif. between hybrids of the first
generation.
[Webster 1913 Suppl.] |
Gamogenesis (gcide) | Gamogenesis \Gam`o*gen"e*sis\, n. [Gr. ? marriage + E. genesis.]
(Biol.)
The production of offspring by the union of parents of
different sexes; sexual reproduction; -- the opposite of
agamogenesis.
[1913 Webster] |
Geneagenesis (gcide) | Geneagenesis \Gen`e*a*gen"e*sis\, n. [Gr. ? race + E. genesis.]
(Biol.)
Alternate generation. See under Generation.
[1913 Webster] |
Genesis (gcide) | Genesis \Gen"e*sis\, n. [L., from Gr. ge`nesis, fr. the root of
gi`gnesqai to beget, be born; akin to L. genus birth, race.
See Gender.]
[1913 Webster]
1. The act of producing, or giving birth or origin to
anything; the process or mode of originating; production;
formation; origination.
[1913 Webster]
The origin and genesis of poor Sterling's club.
--Carlyle.
[1913 Webster]
2. The first book of the Old Testament; -- so called by the
Greek translators, from its containing the history of the
creation of the world and of the human race.
[1913 Webster]
3. (Geom.) Same as Generation. Genet |
Glucogenesis (gcide) | Glucogenesis \Glu`co*gen"e*sis\, n.
Glycogenesis. [R.]
[1913 Webster] |
Glycogenesis (gcide) | Glycogeny \Gly*cog"e*ny\, Glycogenesis \Gly`co*gen"e*sis\, n.
(Physiol.)
The production or formation of sugar from gycogen, as in the
liver.
[1913 Webster] |
Haematogenesis (gcide) | Haematogenesis \H[ae]m`a*to*gen"e*sis\
(h[e^]m`[.a]*t[-o]*j[e^]n"[-e]*s[i^]s or h[=e]`m[.a]*t[-o]-),
n. [H[ae]mato- + genesis.] (Physiol.)
(a) The origin and development of blood.
(b) The transformation of venous into arterial blood by
respiration; hematosis.
[1913 Webster] |
Henogenesis (gcide) | Henoge ny \He*nog"e* ny\, Henogenesis \Hen`o*gen"e*sis\, n. [Gr.
e"i`s, masc., "e`n, neut., one + root of ? to be born.]
(Biol.)
Same as Ontogeny.
[1913 Webster]Ontogenesis \On`to*gen"e*sis\, Ontogeny \On*tog"e*ny\, n. [See
Ontology, and Genesis.] (Biol.)
The history of the individual development of an organism; the
sequence of events involved in the development of an
organism; the history of the evolution of the germ; the
development of an individual organism, -- in distinction from
phylogeny, or evolution of the tribe. Called also
henogenesis, henogeny.
Syn: growth, growing, maturation, development.
[1913 Webster] |
henogenesis (gcide) | Henoge ny \He*nog"e* ny\, Henogenesis \Hen`o*gen"e*sis\, n. [Gr.
e"i`s, masc., "e`n, neut., one + root of ? to be born.]
(Biol.)
Same as Ontogeny.
[1913 Webster]Ontogenesis \On`to*gen"e*sis\, Ontogeny \On*tog"e*ny\, n. [See
Ontology, and Genesis.] (Biol.)
The history of the individual development of an organism; the
sequence of events involved in the development of an
organism; the history of the evolution of the germ; the
development of an individual organism, -- in distinction from
phylogeny, or evolution of the tribe. Called also
henogenesis, henogeny.
Syn: growth, growing, maturation, development.
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