CONJUGATION OF THE VERB TO PHOTOOXIDIZE
PRESENT
Present
I photooxidize
you photooxidize
he/she/it photooxidizes
we photooxidize
you photooxidize
they photooxidize
Present continuous
I am photooxidizing
you are photooxidizing
he/she/it is photooxidizing
we are photooxidizing
you are photooxidizing
they are photooxidizing
Present perfect
I have photooxidized
you have photooxidized
he/she/it has photooxidized
we have photooxidized
you have photooxidized
they have photooxidized
Present perfect continuous
I have been photooxidizing
you have been photooxidizing
he/she/it has been photooxidizing
we have been photooxidizing
you have been photooxidizing
they have been photooxidizing
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 photooxidized
you photooxidized
he/she/it photooxidized
we photooxidized
you photooxidized
they photooxidized
Past continuous
I was photooxidizing
you were photooxidizing
he/she/it was photooxidizing
we were photooxidizing
you were photooxidizing
they were photooxidizing
Past perfect
I had photooxidized
you had photooxidized
he/she/it had photooxidized
we had photooxidized
you had photooxidized
they had photooxidized
Past perfect continuous
I had been photooxidizing
you had been photooxidizing
he/she/it had been photooxidizing
we had been photooxidizing
you had been photooxidizing
they had been photooxidizing
Past tense forms express circumstances existing at some time in the past,
FUTURE
Future
I will photooxidize
you will photooxidize
he/she/it will photooxidize
we will photooxidize
you will photooxidize
they will photooxidize
Future continuous
I will be photooxidizing
you will be photooxidizing
he/she/it will be photooxidizing
we will be photooxidizing
you will be photooxidizing
they will be photooxidizing
Future perfect
I will have photooxidized
you will have photooxidized
he/she/it will have photooxidized
we will have photooxidized
you will have photooxidized
they will have photooxidized
Future perfect continuous
I will have been photooxidizing
you will have been photooxidizing
he/she/it will have been photooxidizing
we will have been photooxidizing
you will have been photooxidizing
they will have been photooxidizing
The
future is used to express circumstances that will occur at a later time.
CONDITIONAL
Conditional
I would photooxidize
you would photooxidize
he/she/it would photooxidize
we would photooxidize
you would photooxidize
they would photooxidize
Conditional continuous
I would be photooxidizing
you would be photooxidizing
he/she/it would be photooxidizing
we would be photooxidizing
you would be photooxidizing
they would be photooxidizing
Conditional perfect
I would have photooxidize
you would have photooxidize
he/she/it would have photooxidize
we would have photooxidize
you would have photooxidize
they would have photooxidize
Conditional perfect continuous
I would have been photooxidizing
you would have been photooxidizing
he/she/it would have been photooxidizing
we would have been photooxidizing
you would have been photooxidizing
they would have been photooxidizing
Conditional or "future-in-the-past" tense refers to hypothetical or possible actions.
IMPERATIVE
Imperative
you photooxidize
we let´s photooxidize
you photooxidize
The
imperative is used to form commands or requests.
NONFINITE VERB FORMS
Infinitive
to photooxidize
Past participle
photooxidized
Present Participle
photooxidizing
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 «PHOTOOXIDIZE»
Discover the use of
photooxidize in the following bibliographical selection. Books relating to
photooxidize and brief extracts from same to provide context of its use in English literature.
1
Oxygenic Photosynthesis: The Light Reactions
On exposure to continuous illumination, the ability to photooxidize waterrapidly
appears. The 16, 23 and 33 kDa proteins of the extrinsic oxygen-evolving
complex have been detected in etioplasts (Ryrie et al., 1984; Liveanu et al., 1986
) and ...
Donald R. Ort, Charles F. Yocum, Iris F. Heichel,
1996
2
Cultivation & Utilisation of Medicinal and Aromatic Plants
They photooxidize terpinen, cause haemolysis, photooxidize blood serum, not
active if painted on the skin, on intradermal injection, cause an immediate though
short photoreaction. The decrease in the temperature of irradiation inhibits the ...
C. K. Atal, B. M. Kapur,
1977
3
Photosynthetic Mechanisms of Green Plants
1. The photooxidation is inhibited by lo'^m DCMU and lo'^m o-phenanthroline^^l
(see also table 11). 2. Treatment of chloroplasts with a detergent and solu-
bilizing the chlorophyll destroys the ability to photooxidize hydroquinones (30),
The ...
National Research Council (U.S.). Committee on Photobiology,
1963
4
Life in the Universe: Expectations and Constraints
Some of the sulfur reducing bacteria live symbiotically with green sulfur bacteria
that photooxidize hydrogen sulfide to elemental sulfur (early photosystem). Sulfur
oxidizing microbes are common in oxygen-rich aquatic ecosystems and ...
Dirk Schulze-Makuch, Louis Neal Irwin,
2008
5
Nanoscience and Nanotechnology: Environmental and Health Impacts
QDs outside the cell retain their original color (as indicated by an arrow),
whereas those inside the bacteria are significantly blueshifted. Similar labeling is
seen when the QD—transferrin conjugate is allowed to photooxidize before
incubation.
6
Photosynthesis Photobiochemistry and Photobiophysics
It is also known that the Cyt c553 that is oxidized following the first flash takes 1 0
ms to become re-reduced, a second flash given less than 1 0 ms after the first
flash, but after QA~ has been oxidized by QB, should be able to photooxidize the
...
7
Environmentally Benign Photocatalysts: Applications of ...
It is reported that the amorphous microporous titania modified with platinum
chloride prepared by sol–gel method can photooxidize 4-chlorophenol under
visible-light irradiation (Zang et al. 1998). In a typical experiment, the hybrid
titania ...
Masakazu Anpo, Prashant V. Kamat,
2010
8
Mitochondrial Function, Part A: Mitochondrial Electron ...
... Ruz-39-Cc leads to electron transfer from heme c1 to heme c with a rate
constant of 1.4 × 104 s−1. Methods are described for the use of the ruthenium
dimer, Ru2D, to photooxidize cyt c1 in the cytochrome bc1 complex within 1 μsec
with a ...
9
Groundwater Chemicals Desk Reference, Fourth Edition
Based on data for phenol, a structurally related compound, an aqueous solution
containing 1-naphthoxide ion (3 x 10-4 M) in room light would be expected to
photooxidize to give 2-hydroxy-1,4-naphthoquinone (Tomkiewicz et al., 1971).
10
Bioinspired Chemistry for Energy:: A Workshop Summary to the ...
FIGURE 3.5 One of the postulated pathways for the O2 release step of the WOC.
The naturally occurring WOC of photosystem II is able to efficiently photooxidize
water in a sustainable manner using visible light according to the reaction: 2 H2O
...
Boonchai Boonyaratanakornkit, Tina Masciangioli, Sandi Schwartz,
2008