「chlorophyll」の共起表現一覧(1語右で並び替え)
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This is the Absorption Spectrum of both the | Chlorophyll a and the Chlorophyll b pigments. |
Chlorophyll a is known as the core pigment. | |
Chlorophyll a absorbs well at a wavelength of about 400 | |
Absorbance spectra of free | chlorophyll a (green) and b (red) in a solvent. |
It is more soluble than | chlorophyll a in polar solvents because of its carbonyl |
Chlorophyll a is the most common of the six, present in | |
For photosystem II, when either of the two | chlorophyll a molecules at the reaction center absorb e |
These polypeptides bind to | chlorophyll a and beta-carotene and pass the excitation |
The oxidised | chlorophyll a replaces the electrons by photolysis that |
l diphosphate, whereas its two products are | chlorophyll a and diphosphate. |
stands for pigment) is the reaction-center | chlorophyll a molecule in association with photosystem |
Chlorins (e.g., | Chlorophyll a) |
With exception of | chlorophyll a, all the other associated pigments are "a |
ic organisms, that work in conjunction with | chlorophyll a. |
, wavelengths that are not well absorbed by | chlorophyll a. Organisms growing in shallow waters tend |
lated from Prochloron didemni retaining its | chlorophyll a/b light harvesting system," Proc. |
r surface temperature, salinity, turbidity, | chlorophyll and later, nutrient data. |
r sea surface temperature) and visible (for | chlorophyll and suspended sediment) spectra. |
sting carotenoid, a pigment associated with | chlorophyll and found in the peridinin-chlorophyll-prot |
terotroph, the Pholisma sonorae plant lacks | chlorophyll and is grayish, whitish, or brown in color. |
The species is without | chlorophyll and lives as a parasite on the roots of a n |
Bile, | chlorophyll and other waste products consequently build |
e for water and nutrients but contains some | chlorophyll and can photosynthesize some energy for its |
iosynthesis of the 'pigments of life' haem, | chlorophyll and vitamin B12, that are built on closely |
The plant lacks | chlorophyll and obtains its nutrients and water from th |
This orchid is a myco-heterotroph; it lacks | chlorophyll and gets food by parasitizing the mycelium |
will contribute to a natural break down of | chlorophyll and changing of color. |
nvert all produced protochlorophyllide into | chlorophyll and do not overaccumulate it despite of the |
Chlorophyll b is a form of chlorophyll. | |
Chlorophyll b helps in photosynthesis by absorbing ligh | |
Chlorophyll b is almost identical to chlorophyll a exce | |
nclude other forms of this pigment, such as | chlorophyll b in green algal and higher plant antennae, |
This small difference makes | chlorophyll b absorb light with wavelengths between 400 |
cyanobacteria with an unusual pigmentation ( | chlorophyll b) belonging to photosynthetic picoplankton |
The antenna pigments are predominantly | chlorophyll b, xanthophylls, and carotenoids. |
In | chlorophyll biosynthesis, the enzyme magnesium chelatas |
I to proto-porphyrinogen IX in the haem and | chlorophyll biosynthetic pathways. |
However, CDOM and | chlorophyll both absorb in the same spectral range so i |
ence on the N-terminal results in extensive | chlorophyll breakdown and the degreening effect that sh |
Species in this genus do not produce | chlorophyll, but rely fully on its host plant. |
effect in plants, caused by a reduction in | chlorophyll), but this was not a reliable indicator of |
It can be produced from | chlorophyll by treatment with a weak acid, producing a |
/Prof Chen et al. discovered the fifth form | chlorophyll, called Chlorophyll f. |
It can be found in green vegetables, | chlorophyll, cocoa derivatives, nuts, wheat, seafood, a |
Nitrogen deficiency can be detected with a | chlorophyll content meter. |
Chlorophyll content can also be assessed with a chlorop | |
Chlorophyll content tests work because leaf nitrogen co | |
Many studies have used | chlorophyll content meters to predict N-content of leav |
be detected non-destructively by measuring | chlorophyll content. |
Chlorophyll d is a form of chlorophyll, identified in 1 | |
tt B, Willows RD, Chen M, "18O-labelling of | chlorophyll d in acaryochloris marina reveal chlorophyl |
Dinoflagellate luciferin is a | chlorophyll derivative and is found in dinoflagellates, |
for pigment) refers to any of the 2 special | chlorophyll dimers (also named special pairs), PD1 or P |
Because | chlorophyll does not dissolve in water, food sources of |
The function of | Chlorophyll f in photosynthetic reactions is uncertain |
The | Chlorophyll f (absorption maximum at 706 nm in vitro), |
Chlorophyll fluorescence is light that has been re-emit | |
For instance, they are used to measure | chlorophyll fluorescence to investigate plant physiolog |
cannot be totally stopped, so the yield of | chlorophyll fluorescence in the absence of non-photoche |
SeaWIFS-derived average sea surface | chlorophyll for the period 1998 to 2006. |
SeaWiFS-derived average sea surface | chlorophyll for the period 1998 to 2006. |
artoons series The most beautiful Tales and | Chlorophyll from the blue sky, both drawn by Adelchi Ga |
he cakes are light green in tone due to the | chlorophyll in the leaf juice. |
nd peridinin pigments are shown in pink and | chlorophyll in black. |
he region of rapid change in reflectance of | chlorophyll in the near infrared range. |
e of severe iron deficiency, veins may lose | chlorophyll in the absence of iron and appear similar t |
ent nights, likely because the synthesis of | chlorophyll in the mature leaf tissue is greatly reduce |
here they act to increase the efficiency of | chlorophyll in harvesting light energy. |
on of the pigments in blood, bile, and also | chlorophyll in leaves, as well as with the chemistry of |
As a byproduct of photosynthesis, | chlorophyll is a key indicator of phytoplankton activit |
Chlorophyll is registered as a food additive (colorant) | |
Chlorophyll is a magnesium porphyrin, and heme is an ir | |
For example, | chlorophyll is much more efficient at using the red and |
Chlorophyll is not soluble in water and is first mixed | |
the filaments, which masks the green of the | chlorophyll, is caused by the presence of large quantit |
lysia chlorotica, has been found to use the | chlorophyll it has eaten to perform photosynthesis for |
thways: glutamate metabolism, porphyrin and | chlorophyll metabolism, and aminoacyl-trna biosynthesis |
This enzyme participates in porphyrin and | chlorophyll metabolism. |
y to manage nitrogen is enhanced by using a | Chlorophyll Meter in combination with the researcher's |
Biochemically, pheophytin is a | chlorophyll molecule lacking a central Mg2+ ion. |
The peridinin molecules are pink and the | chlorophyll molecules are black. |
The pair of | chlorophyll molecules at the reaction centre are often |
omplex of plants is an array of protein and | chlorophyll molecules embedded in the thylakoid membran |
The action spectra of | chlorophyll molecules are slightly modified in vivo dep |
ion begins with the excitation of a pair of | chlorophyll molecules similar to those in the bacterial |
by either removing excess light energy from | chlorophyll molecules or quenching the singlet oxygen m |
xidant to prevent photo-oxidative damage of | chlorophyll molecules. |
n can be produced from the light-harvesting | chlorophyll molecules. |
is unique in its high ratio of peridinin to | chlorophyll; most light-harvesting complexes contain mo |
It has no roots, leaves, or | chlorophyll, obtaining its water and nutrients from the |
of phytoplankton in HNLC (High Nitrate, Low | Chlorophyll) ocean surface waters, much in the same way |
Analysis of photosynthetic pigments such as | chlorophyll or carotenoids by high precision chromatogr |
ectron flow produced by the reaction center | chlorophyll pigments is used to shuttle H+ ions across |
to cold and reduced sunlight by curtailing | chlorophyll production. |
ng complexes, particularly in the peridinin | chlorophyll proteins of dinoflagellates, and as domains |
mana and E Pluribus Unum out on their label | Chlorophyll Records. |
that this is a region of the spectrum where | chlorophyll still absorbs light (chlorophyll is the gre |
lorets gum and candy generally contains the | chlorophyll substance which acts as an active ingredien |
In enzymology, a | chlorophyll synthase (EC 2.5.1.62) |
ugh humans cannot derive phytanic acid from | chlorophyll, they can convert free phytol into phytanic |
Beechdrops lack both leaves and | chlorophyll, they only have small pinkish flowers that |
o Bacopa caroliniana plants they caused the | chlorophyll to produce reddish light. |
Chefs use | chlorophyll to color a variety of foods and beverages g |
rface, so isorenieratene is used instead of | chlorophyll to harvest light for photosynthesis. |
the microbial mats depends on the ratio of | chlorophyll to carotenoids and on the temperature of th |
lants so it does not rely entirely on green | chlorophyll to produce its own nutrients. |
r in autumn, it is due to the loss of green | chlorophyll unmasking these carotenoids that are alread |
Extracted Liquid | Chlorophyll was considered unstable and always denature |
aterials liberates phytol, a constituent of | chlorophyll, which is then converted to phytanic acid a |
ns from visible light with pigments such as | chlorophyll whose energy is then used in photolysis of |
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