CONJUGATION OF THE VERB TO DIMERISE
PRESENT
Present
I dimerise
you dimerise
he/she/it dimerises
we dimerise
you dimerise
they dimerise
Present continuous
I am dimerising
you are dimerising
he/she/it is dimerising
we are dimerising
you are dimerising
they are dimerising
Present perfect
I have dimerised
you have dimerised
he/she/it has dimerised
we have dimerised
you have dimerised
they have dimerised
Present perfect continuous
I have been dimerising
you have been dimerising
he/she/it has been dimerising
we have been dimerising
you have been dimerising
they have been dimerising
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 dimerised
you dimerised
he/she/it dimerised
we dimerised
you dimerised
they dimerised
Past continuous
I was dimerising
you were dimerising
he/she/it was dimerising
we were dimerising
you were dimerising
they were dimerising
Past perfect
I had dimerised
you had dimerised
he/she/it had dimerised
we had dimerised
you had dimerised
they had dimerised
Past perfect continuous
I had been dimerising
you had been dimerising
he/she/it had been dimerising
we had been dimerising
you had been dimerising
they had been dimerising
Past tense forms express circumstances existing at some time in the past,
FUTURE
Future
I will dimerise
you will dimerise
he/she/it will dimerise
we will dimerise
you will dimerise
they will dimerise
Future continuous
I will be dimerising
you will be dimerising
he/she/it will be dimerising
we will be dimerising
you will be dimerising
they will be dimerising
Future perfect
I will have dimerised
you will have dimerised
he/she/it will have dimerised
we will have dimerised
you will have dimerised
they will have dimerised
Future perfect continuous
I will have been dimerising
you will have been dimerising
he/she/it will have been dimerising
we will have been dimerising
you will have been dimerising
they will have been dimerising
The
future is used to express circumstances that will occur at a later time.
CONDITIONAL
Conditional
I would dimerise
you would dimerise
he/she/it would dimerise
we would dimerise
you would dimerise
they would dimerise
Conditional continuous
I would be dimerising
you would be dimerising
he/she/it would be dimerising
we would be dimerising
you would be dimerising
they would be dimerising
Conditional perfect
I would have dimerise
you would have dimerise
he/she/it would have dimerise
we would have dimerise
you would have dimerise
they would have dimerise
Conditional perfect continuous
I would have been dimerising
you would have been dimerising
he/she/it would have been dimerising
we would have been dimerising
you would have been dimerising
they would have been dimerising
Conditional or "future-in-the-past" tense refers to hypothetical or possible actions.
IMPERATIVE
Imperative
you dimerise
we let´s dimerise
you dimerise
The
imperative is used to form commands or requests.
NONFINITE VERB FORMS
Past participle
dimerised
Present Participle
dimerising
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 «DIMERISE»
Discover the use of
dimerise in the following bibliographical selection. Books relating to
dimerise and brief extracts from same to provide context of its use in English literature.
1
Molecular Biology in Cellular Pathology
The MYC protein, p62, contains two domains, an N-terminal transactivation
domain and a C-terminal domain with the ability to bind to DNA and to dimerise.
MYC has been shown to act in conjunction with a second protein, MAX, and
these ...
John Crocker, Paul G. Murray, 2003
2
Functionalised N-Heterocyclic Carbene Complexes
The compounds are yellow solids that dimerise readily and show typical carbene
reactions like insertion into NH bonds. The tendency to dimerise follows the
known electronic properties of substituents on the phenyl ring on nitrogen (o-
methyl ...
3
Plant Pigments and Their Manipulation
Indole can be converted to indoxyl and this can spontaneously dimerise to the
blue-coloured indigo under oxidative conditions. In addition, related compounds
isatin and, in small amounts, dioxindole can be formed. These can dimerise with
...
4
Elements of Molecular Neurobiology
It has been found (see Figure 18.14) that the cf1a protein is stable in solution in
its monomeric form and requires to dimerise before it can bind to the Ddc
promoter. i-pou monomers are also stable in solution but (lacking two basic
amino acids) ...
5
Bacterial Disease Mechanisms: An Introduction to Cellular ...
As will be described in Sections 4.2.4.1 and 4.2.6.6, many cytokine receptors
have to dimerise to enable their intracellular domains to function as signal
transducers. Mutant genes encoding receptors lacking the intracellular signalling
module ...
Michael Wilson, Rod McNab, Brian Henderson, 2002
The corresponding processes of bond formation are quite straightforward —
radicals may either dimerise (quite rare as their concentration is generally low),
or add to a non-radical molecule to give a new radical which can either dimerise,
...
7
Molecular Pharmacology: From DNA to Drug Discovery
In addition the calcitonin and calcitonin receptor—like receptors dimerise with
receptor activity modifying proteins (RAMPs; discussed in Chapter 11). GPCR
heterodimerisation Although GPCR homodimerisation generated consid—
erable ...
John Dickenson, Fiona Freeman, Chris Lloyd Mills, 2012
It has been demonstrated that insulin can dimerise at micromolar concentrations
and, in the presence of zinc ions, it can associate into hexamers (Fig. 1.4) (De
Meyts, 2004). Insulin exerts its effect through a receptor tyrosine kinase (RTK).
9
Hormones, Signals and Target Cells in Plant Development
At low auxin concentrations, Aux/IAA proteins are stable, but short-lived, and they
dimerise with the ARF proteins and block transcription of the auxin-responsive
genes. At higher auxin concentrations, the Aux/IAA proteins are themselves ...
Daphne J. Osborne, Michael T. McManus, 2005
10
Organometallic Chemistry
The aluminium is incorporated into a f ive-membered ring through 0, N-enolate
chelation; these rings dimerise in the usual manner to generate central, planar
AI2O2 moieties. Addition of a second equivalent of R2A1C1 causes disruption of
...
E. W. Abel, D. A. Armitage, 1992
7 NEWS ITEMS WHICH INCLUDE THE TERM «DIMERISE»
Find out what the national and international press are talking about and how the term
dimerise is used in the context of the following news items.
Light drives unusual rotaxane-to-catenane transformation
But Alberto Credi, of the University of Bologna in Italy, and colleagues have shown that light is all they need to dimerise the anthracene ... «Royal Society of Chemistry, Jan 15»
Chemical makers in Japan develop new olefin production processes …
Conventional processes to convert ethylene into propylene include steps to dimerise ethylene into butane, and propylene is then produced ... «plastemart.com, Oct 14»
Innovation cuts ties to naphtha
Conventional processes to convert ethylene into propylene include steps to dimerise ethylene into butane, and propylene is then produced ... «ICIS, Oct 14»
Roche Sees Second Phase III Setback of 2014 as MetMab Flops
When MET binds to Hepatocyte Growth Factor (HGF), a protein also called "Scatter Factor," the MET proteins dimerise, triggering a signaling ... «Genetic Engineering News, Mar 14»
Unzipping melanocyte regulation: Structure of transcription factor …
... carried out the research, “this insertion limits MITF's ability to dimerise only with those transcription factors that also have this unusual insert”. «Insciences Organisation, Dec 12»
Cell control to change cell function
Normally, when ligands are introduced to a cell, they bind to the receptors, causing them to dimerise. This brings the receptors closer together ... «Chemistry World, Jul 11»
Forming clusters with open arms
The 60° molecules dimerise, then clump to form nanospheres. However, the molecules whose arms were more open could form chains. «Chemistry World, Apr 07»