CONJUGATION OF THE VERB TO LYSOGENIZE
PRESENT
Present
I lysogenize
you lysogenize
he/she/it lysogenizes
we lysogenize
you lysogenize
they lysogenize
Present continuous
I am lysogenizing
you are lysogenizing
he/she/it is lysogenizing
we are lysogenizing
you are lysogenizing
they are lysogenizing
Present perfect
I have lysogenized
you have lysogenized
he/she/it has lysogenized
we have lysogenized
you have lysogenized
they have lysogenized
Present perfect continuous
I have been lysogenizing
you have been lysogenizing
he/she/it has been lysogenizing
we have been lysogenizing
you have been lysogenizing
they have been lysogenizing
Present tense is used to refer to circumstances that exist at the present time or over a period that includes the present time. The
present perfect refers to past events, although it can be considered to denote primarily the resulting present situation rather than the events themselves.
PAST
Past
I lysogenized
you lysogenized
he/she/it lysogenized
we lysogenized
you lysogenized
they lysogenized
Past continuous
I was lysogenizing
you were lysogenizing
he/she/it was lysogenizing
we were lysogenizing
you were lysogenizing
they were lysogenizing
Past perfect
I had lysogenized
you had lysogenized
he/she/it had lysogenized
we had lysogenized
you had lysogenized
they had lysogenized
Past perfect continuous
I had been lysogenizing
you had been lysogenizing
he/she/it had been lysogenizing
we had been lysogenizing
you had been lysogenizing
they had been lysogenizing
Past tense forms express circumstances existing at some time in the past,
FUTURE
Future
I will lysogenize
you will lysogenize
he/she/it will lysogenize
we will lysogenize
you will lysogenize
they will lysogenize
Future continuous
I will be lysogenizing
you will be lysogenizing
he/she/it will be lysogenizing
we will be lysogenizing
you will be lysogenizing
they will be lysogenizing
Future perfect
I will have lysogenized
you will have lysogenized
he/she/it will have lysogenized
we will have lysogenized
you will have lysogenized
they will have lysogenized
Future perfect continuous
I will have been lysogenizing
you will have been lysogenizing
he/she/it will have been lysogenizing
we will have been lysogenizing
you will have been lysogenizing
they will have been lysogenizing
The
future is used to express circumstances that will occur at a later time.
CONDITIONAL
Conditional
I would lysogenize
you would lysogenize
he/she/it would lysogenize
we would lysogenize
you would lysogenize
they would lysogenize
Conditional continuous
I would be lysogenizing
you would be lysogenizing
he/she/it would be lysogenizing
we would be lysogenizing
you would be lysogenizing
they would be lysogenizing
Conditional perfect
I would have lysogenize
you would have lysogenize
he/she/it would have lysogenize
we would have lysogenize
you would have lysogenize
they would have lysogenize
Conditional perfect continuous
I would have been lysogenizing
you would have been lysogenizing
he/she/it would have been lysogenizing
we would have been lysogenizing
you would have been lysogenizing
they would have been lysogenizing
Conditional or "future-in-the-past" tense refers to hypothetical or possible actions.
IMPERATIVE
Imperative
you lysogenize
we let´s lysogenize
you lysogenize
The
imperative is used to form commands or requests.
NONFINITE VERB FORMS
Past participle
lysogenized
Present Participle
lysogenizing
Infinitive shows the action beyond temporal perspective. The
present participle or gerund shows the action during the session. The
past participle shows the action after completion.
10 ENGLISH BOOKS RELATING TO «LYSOGENIZE»
Discover the use of
lysogenize in the following bibliographical selection. Books relating to
lysogenize and brief extracts from same to provide context of its use in English literature.
1
Cell Biology A Comprehensive Treatise V3: Gene Expression: ...
The A mutants which fail to lysogenize or which lysogenize poorly have been
classified into four groups, c1, c1], c111, and cY. The cI mutants never lysogenize
and cannot be maintained in the lysogenic state. By contrast CH, CH], or cY ...
2
Genetics of Bacterial Diversity
Clones carrying SCPl inserts—unlike KC4-OO itself— could lysogenize an SCPl-
containing S. coelicolar strain, by crossing over between the cloned fragment and
the corresponding region of the resident SCPl plasmid, but they were unable to ...
David A. Hopwood, Keith F. Chater, 2012
3
Travaux scientifiques de François Jacob
The cx mutants either do not lysogenize by themselves, or lysogenize at very low
levels, something in the order of 10"3. The cv. mutants are good virulent phages.
The Ci and c2 mutant types can be distinguished on the basis of mixed infection ...
François Jacob, Nadine Peyrieras, 2002
More specifically, the determinants of immunity are localized in the C; region. The
so-called “clear mutants” of phage A arise through mutational events in the C I
region. These C1 mutants are unable to lysogenize or to grow in lysogenic cells,
...
... turbid Phage/-M~ is capable of lysogenizing DM1285 and JMl, but *is not able
to lysogenize strain DMll87, the parent of DM1285. In contrast, phage /\inds can
not lysogenize DM1285 and its parent DMllBT, but 7'1nds does lysogenize JMl ...
6
ADVANCES IN VIRUS RESEARCH
Phage Ac, which is unable to lysogenize, begins its DNA synthesis some 15
minutes after infection. Phage c+, which is able to lysogenize nearly 100? of the
cells of a liquid culture, shows a delay of 40 minutes before the resumption of
DNA ...
Kenneth Manley Smith, 1962
They are unable to lysogenize. They are called “clear plaque” mutants because
whereas there is no lysogenization within the plaques of these mutants, which
therefore look clear like the plaques of a virulent phage, the wild type plaques are
...
Ernst W. Caspari, J. M. Thoday, 1963
8
Bacterial Episomes and Plasmids
Campbell: Zavada and Calef (1968) studied the strain in which the region is
transferred from B into K12. In fact Xbz will lysogenize this region. Arber: In
relation to the lysogenization of E. coli B with kbz (Arber and Lataste-Dorolle,
1961), ...
CIBA Foundation Symposium, 2009
9
RNA Interference Screens as a Tool for Discovering Gene Function
... is a strain containing λcI and the pir1 gene that was constructed in order to
lysogenize the λSM2-barcode library prior to introduction of the hairpin fragments
. To generate this strain, λKP containing the pir1 and KnR genes was constructed
.
10
METHODS IN MICROBIOLOGY
state are referred to as temperate phages as opposed to virulent phages which
are unable to lysogenize. The presence of such phages may remain unnoticed in
the original host until it is mixed with or plated on a strain (referred to as an ...
James R. Norris, Douglas W. Ribbons, 1969
