304 research outputs found
Genetic diversity trends in twentieth century crop cultivars: a meta analysis
In recent years, an increasing number of papers has been published on the genetic diversity trends in crop cultivars released in the last century using a variety of molecular techniques. No clear general trends in diversity have emerged from these studies. Meta analytical techniques, using a study weight adapted for use with diversity indices, were applied to analyze these studies. In the meta analysis, 44 published papers were used, addressing diversity trends in released crop varieties in the twentieth century for eight different field crops, wheat being the most represented. The meta analysis demonstrated that overall in the long run no substantial reduction in the regional diversity of crop varieties released by plant breeders has taken place. A significant reduction of 6% in diversity in the 1960s as compared with the diversity in the 1950s was observed. Indications are that after the 1960s and 1970s breeders have been able to again increase the diversity in released varieties. Thus, a gradual narrowing of the genetic base of the varieties released by breeders could not be observed. Separate analyses for wheat and the group of other field crops and separate analyses on the basis of regions all showed similar trends in diversity
Characterization of iodothyronine sulfotransferase activity in rat liver
Sulfation is an important pathway in the metabolism of thyroid hormone
because it strongly facilitates the degradation of the hormone by the type
I iodothyronine deiodinase. However, little is known about the properties
and possible regulation of the sulfotransferase(s) involved in the
sulfation of thyroid hormone. We have developed a convenient method for
the analysis of iodothyronine sulfotransferase activity in tissue
cytosolic fractions, using radioiodinated 3,3'-diiodothyronine (3,3'-T2)
as the preferred substrate, unlabeled
3'-phosphoadenosine-5'-phosphosulfate (PAPS) as the sulfate donor, and
Sephadex LH-20 minicolomns for separation of the products. We found that
iodothyronine sulfotransferase activity in rat liver cytosol is 1) higher
in male than in female rats; 2) optimal at pH 8.0; 3) characterized (at 50
microM PAPS and pH 7.2) by apparent Michaelis-Menton (Km) values for
3,3'-T2 of 1.77 and 4.19 microM, and Vmax values of 1.94 and 1.45 nmol/min
per mg protein in male and female rats, respectively; 4) characterized (at
1 microM 3,3'-T2 and pH 7.2) by apparent Km values for PAPS of 4.92 and
3.80 microM and Vmax values of 0.72 and 0.31 nmol/min per mg protein, in
males and females, respectively; 5) little affected by hyperthyroidism in
both male and female rats, but significantly decreased by hypothyroidism
in males but not in females; and 6) not affected by short-term (3 days)
fasting in both male and female rats, but significantly decreased by
long-term (3 weeks) food restriction to one-third of normal intake in
males but not in females. It is suggested that the higher hepatic
iodothyronine sulfotransferase activity in male vs. female rats, as well
as the decreases induced in males by hypothyroidism and long-term food
restriction, represents differences in the expression of the male-dominant
isoenzyme rSULT1C1
Neural differentiation of the human neuroblastoma cell line IMR32 induces production of a thyrotropin-releasing hormone-like peptide
The human neuroblastoma cell line IMR32 produces and secretes substantial amounts of TRH-immunoreactivity (TRH-IR) as measured with radioimmunoassay (RIA) using the nonspecific antiserum 4319. It was found that synthesis of TRH-IR is dependent on neural differentiation: under serum-free conditions these cells exhibit neural characteristics as defined by morphological and biochemical standards. After culture for 2–5 days in serum-free medium cells grew large neural processes and expressed neuron-specific markers whereas glial-specific markers were absent. TRH-IR became detectable after 4–8 days serum-free conditions. Northern blot and chromatographic analysis, however, failed to detect proTRH mRNA and authentic TRH in these cells. Moreover, TRH-IR was undetectable in the RIA using TRH-specific antiserum 8880. TRH-IR produced by differentiated cells was retained on a QAE Sephadex A-25 anion-exchange column and thus negatively charged. HPLC analysis showed coelution with the synthetic peptide pGlu-Glu-ProNH2. Study of the mechanisms regulating production of this novel peptide in these cells should further elucidate the role differentation plays in the synthesis of neuropeptides
Energy utilization and growth in breast-fed and formula-fed infants measured prospectively during the first year of life
This study is the first to report approximations of energy requirements
for male and female breast-fed and formula-fed infants based on individual
estimates of total daily energy expenditure (TDEE) and energy deposition
derived from total body fat (TBF) and fat-free mass (FFM) gain as
determined by total-body electrical conductivity. In 46 healthy, full-term
infants the effect of > or = 4 mo of exclusive breast-feeding compared
with formula feeding on macronutrient and energy intake, TDEE, energy
deposition, and growth were investigated prospectively. Metabolizable
energy intake (MEI) was assessed from macronutrient intake by test
weighing (MEI-TW) and from the sum of TDEE and energy deposition
(MEI-Pred). At 1-2, 2-4, 4-8, and 8-12 mo of age MEI-Pred averaged 431 +/-
38, 393 +/- 33, 372 +/- 33, and 355 +/- 21 kJ x kg(-1) x d(-1) for boys,
and 401 +/- 59, 376 +/- 25, 334 +/- 33, and 326 +/- 17 kJ x kg(-1) x d(-1)
for girls. No significant difference between breast-fed and formula-fed
infants was found with respect to weight, length, head circumference, TBF,
FFM, and TDEE at all ages, or for gain in length, weight, TBF, and FFM.
MEI-TW was significantly different between feeding groups at 1-4 mo of age
(formula-fed being greater than breast-fed, P < 0.005). This feeding
effect, however, was not significant for MEI-Pred (MJ/d). MEI-TW differed
from MEI-Pred only in breast-fed infants at 1-4 mo (P < 0.05 at 2-4 mo).
The data from this study indicate that energy requirements in infants are
lower than the recommendations in guidelines currently in use
Plasma membrane transport of thyroid hormones and its role in thyroid hormone metabolism and bioavailability
Although it was originally believed that thyroid hormones enter target
cells by passive diffusion, it is now clear that cellular uptake is
effected by carrier-mediated processes. Two stereospecific binding sites
for each T4 and T3 have been detected in c
Effects of thyroid status and thyrostatic drugs on hepatic glucuronidation of lodothyronines and other substrates in rats - Induction of phenol UDP-glucuronyltransferase by methimazole
Glucuronidation of iodothyronines in rat liver is catalyzed by at least three UDP-glucuronyltransferases (UGTs): bilirubin UGT, phenol UGT, and androsterone UGT. Bilirubin and phenol UGT activities are regulated by thyroid hormone, but the effect of thyroid status on hepatic glucuronidation of iodothyronines is unknown. We examined the effects of hypothyroidism induced by treatment of rats with propylthiouracil (PTU) or methimazole (MMI) or by thyroidectomy as well as the effects of T4-induced hyperthyroidism on the hepatic UGT activities for T4, T3, bilirubin, p-nitrophenol (PNP), and androsterone. Bilirubin UGT activity was increased in MMI- or PTU-induced hypothyroid and thyroidectomized rats, and decreased in hyperthyroid animals. T4 and, to a lesser extent, T3 UGT activities were increased in MMI- or PTU-induced hypothyroid rats, and T4 but not T3 glucuronidation also showed a significant increase in thyroidectomized rats. T4 but not T3 UGT activity was slightly decreased in hyperthyroid rats. While PNP UGT activity was decreased in thyroidectomized rats and increased in hyperthyroid animals, it was also markedly increased by MMI and slightly increased by PTU-induced hypothyroidism. In T4-substituted rats, MMI did not affect T4, T3, bilirubin and androsterone UGT activities but again strongly induced PNP UGT activity, indicating that this represented a direct induction of PNP UGT by the drug independent of its thyrostatic action. Androsterone UGT activity was hardly affected by thyroid status. Our results suggest a modest, negative control of the hepatic glucuronidation of thyroid hormone by thyroid status, which may be mediated by changes in bilirubin UGT activity. To our knowledge, this is the first report of the marked induction of a hepatic enzyme by MMI, which is not mediated by its thyroid hormone-lowering effect
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