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1.
Melon (Cucumis melo L.) fruit production in U.S. can be improved through the introgression of early fruit maturity (FM) and the enhancement of
fruit color [i.e., quantity of β-carotene (QβC); orange mesocarp]. However, the genetics of FM and QβC have not been clearly
defined in U.S. Western Shipping market class melons (USWS). Thus, a cross was made between the monoecious, early FM Chinese
line ‘Q 3-2-2’ (non-carotene accumulating, white mesocarp) and the andromonecious, comparatively late FM USWS line ‘Top Mark’
(carotene accumulating; orange mesocarp) to determine the inheritance of FM and QβC in melon. Parents and derived cross-progenies
(F1, F2, F3, BC1P1, and BC1P2) were evaluated for FM and QβC at Hancock, Wisconsin over 2 years. Estimates of narrow-sense heritability (h
N2) for QβC and FM as defined by F1, F2, and BC (by individuals) were 0.55 and 0.62, respectively, while estimates based on F3 families were 0.68 and 0.57, respectively for these traits. Mesocarp color segregation (F2 and BC1P2) fit a two gene recessive epistatic model, which in turn, interacts with other minor genes. Although the inheritance of QβC
and FM is complex, introgression (e.g., by backcrossing) of early FM genes resident in Chinese germplasm into USWS market
types is possible. Such introgression may lead to increased yield potential in USWS market types while retaining relatively
high β-carotene fruit content (i.e., orange mesocarp), if stringent, multiple location and early generation family selection
(F3–4) is practiced for FM with concomitant selection for QβC. 相似文献
2.
Angustias Márquez-Lema José M. Fernández-Martínez Begoña Pérez-Vich Leonardo Velasco 《Euphytica》2008,164(2):365-375
The presence of high levels of sinigrin in the seeds represents a serious constraint for the commercial utilisation of Ethiopian
mustard (Brassica carinata A. Braun) meal. The objective of this research was the introgression of genes for low glucosinolate content from B. juncea into B. carinata. BC1F1 seed from crosses between double zero B. juncea line Heera and B. carinata line N2-142 was produced. Simultaneous selection for B. carinata phenotype and low glucosinolate content was conducted from BC1F2 to BC1F4 plant generations. Forty-three BC1F4 derived lines were selected and subject to a detailed phenotypic and molecular evaluation to identify lines with low glucosinolate
content and genetic proximity to B. carinata. Sixteen phenotypic traits and 80 SSR markers were used. Eight BC1F4 derived lines were very close to N2-142 both at the phenotypic and molecular level. Three of them, with average glucosinolate
contents from 52 to 61 micromoles g−1, compared to 35 micromoles g−1 for Heera and 86 micromoles g−1 for N2-142, were selected and evaluated in two additional environments, resulting in average glucosinolate contents from
43 to 56 micromoles g−1, compared to 29 micromoles g−1 for Heera and 84 micromoles g−1 for N2-142. The best line (BCH-1773), with a glucosinolate profile made up of sinigrin (>95%) and a chromosome number of
2n = 34, was further evaluated in two environments (field and pots in open-air conditions). Average glucosinolate contents over
the four environments included in this research were 42, 31 and 74 micromoles g−1 for BCH-1773, Heera and N2-142, respectively. These are the lowest stable levels of glucosinolates reported so far in B. carinata. 相似文献
3.
An additive-dominance, additive × additive (ADAA) and genotype × environment interaction mix model was used to study the genetic
control of β-carotene and l-ascorbic acid in six basic generations (P1, P2, F1, F2, BC1P1 and BC1P2) of tomato derived from the cross CDP8779 accession (Solanum lycopersicum L.) × CDP4777 accession (S. lycopersicum var. cerasiforme). The study was performed in two environments: (1) open field; (2) protected environment, consisting of hydroponic cultivation
in a glasshouse. The results indicate that β-carotene accumulation was mainly additive (32.2% of the genetic component), with
a small dominant component (4.2%) and an important additive × environment interaction contribution (63.6%). In target environments
with moderate to high temperatures and no limiting radiation, this the expression additive × environment interaction could
substantially enhance the β-carotene content. This trait showed also a high narrow-sense heritability (h
2 = 0.62). Ascorbic acid accumulation was also mainly additive (61.7% of the genetic component), with a minor additive epistatic
component (21.5%). This epistatic effect caused a negative heterosis that reduced the positive main additive effect. Nevertheless,
in the described target environments, the additive × environment interaction contribution (16.8%) may enhance the ascorbic
acid content and compensate for the negative heterosis effect. The total narrow-sense heritability of this trait can be considered
useful (h
2 = 0.52). In conclusion, the CDP4777 accession is a very interesting donor parent for the joint improvement of β-carotene
(without diminishing lycopene content) and ascorbic acid content in commercial nutraceutical tomato breeding programmes; the
F1 hybrids derived from this accession showed nearly 450% of the commonly reported average β-carotene content and close to 130%
of the ascorbic acid content of the female parent. 相似文献
4.
Tusar K. Behera Jack E. Staub Snigdha Behera Isabelle Y. Delannay Jin Feng Chen 《Euphytica》2011,178(2):261-272
Cucumber (Cucumis sativus L.) is a major cucurbit vegetable species whose genetic base has been drastically reduced during its domestication. The crop’s
narrow genetic base (3–12% DNA polymorphism) has resulted from the use of limited genetic material and intense selection during
plant improvement. Recently, however, interspecific hybridization has been successful in Cucumis via mating of C. hystrix Chakr. and C. sativus, which resulted in the amphidiploid C. hytivus. We report herein a marker-assisted strategy for increasing genetic diversity in cucumber through introgression backcrossing
employing C. hytivus. The comparatively late-flowering but high-yielding, indeterminate, monoecious line WI 7012A (P1; donor parent) derived from a C. hytivus × C. sativus-derived line (long-fruited Chinese C. sativus cv. Beijingjietou) was initially crossed to the determinate, gynoecious C. sativus line WI 7023A (P2; recurrent parent 1), and then advanced backcross generation progeny (BC2) were crossed with the gynoecious indeterminate line WI 9-6A (P3; recurrent parent 2). More specifically, a single F1 individual (P1 × P2) was backcrossed to P2, and then BC progeny were crossed to P2 and P3, where marker-assisted selection (MAS) for genetic diversity (8 mapped and 16 unmapped markers; designated Sel) or no selection
(designated NSel) was applied to produce BC3P2 (Sel) and BC3P3 (Sel), and BC2P2 (NSel) and BC2P2S1 (NSel) progeny. Relative vegetative growth, number of lateral branches (LB), days to flowering (DF), yield (fruit number),
and fruit quality [as measured by length:diameter (L:D) and endocarp:total diameter (E:T) ratios] were assessed in parents
and cross-progeny. DF varied from ~20 (BC3P2Sel) to ~25 days (BC2P3Sel) among the populations examined, where progeny derived from P2 possessed the shortest DF. Differences in cumulative yield among the populations over six harvests were detected, varying
from ~8 fruits per plant in BC3P2 (Sel) to ~39 fruits per plant in BC2P3 (Sel). Although the vigorous vegetative growth of line P1 was observed in its backcross progeny, highly heterozygous and polymorphic backcross progeny derived from P3 were comparatively more vigorous and bore many high-quality fruit. Response to selection was detected for LB, DF, L:D, and
E:T, but the effectiveness of MAS depended upon the parental lines used. Data indicate that the genetic diversity of commercial
cucumber can be increased by introgression of the C. hystrix genome through backcrossing. 相似文献
5.
The ability of grape cultivars to produce resveratrol in response to UV radiation is associated with their resistance to fungal
pathogens. In this study, we evaluated the UV-induced resveratrol production potential of grape flowers and green berries
of 72 grape genotypes. Their ability to produce resveratrol in response to UV radiation was used to establish a selection
criterion for screening genotypes for resistance to gray mold and powdery mildew. We quantified resveratrol in grape flower
extracts from pre-bloom and early bloom flowers after exposure to UV radiation. There was a strong negative correlation between
UV-induced resveratrol production and susceptibility to Botrytis infection. The grape genotype was considered to be susceptible to gray mold when the resveratrol content of whole flower
clusters was less than 10 μg g−1 FW after the UV treatment. We determined resveratrol production in response to UV radiation in whole grape berries from 0
to 30 days after full bloom. The ability to produce resveratrol in response to UV increased by 8- to 20-times during this
period, depending on the genotype. At 30 days after full bloom, Vitis
vinifera genotypes generally had low levels of resveratrol (<50 μg g−1 FW), while interspecific hybrids, especially the North American cultivars, had high levels (>50 μg g−1 FW). There were clear varietal differences in resistance to Erysiphe (powdery mildew) infection. Susceptibility to Erysiphe infection was strongly negatively correlated with UV-induced resveratrol production. 相似文献
6.
Meenakshi Santra D. K. Santra V. S. Rao S. P. Taware S. A. Tamhankar 《Euphytica》2005,144(1-2):215-221
Despite being one of the important characteristics in determining pasta quality in durum wheat (Triticum turgidum ssp. durum), there is no direct report on inheritance of β-carotene concentration. The objectives of this study were to determine the
inheritance of β-carotene concentration and the number of genes involved in six crosses of durum. For the cross PDW-233 (P1) × Bhalegaon-4 (P2), F1, F2, BCP1 and BCP2 populations were developed. For all other crosses, only the F1 and F2 populations were developed. β-carotene concentration was determined for all populations and parents of each cross grown at
Hol, Maharastra, India. The cross PDW-233 × Bhalegaon-4 was also evaluated at Dharwad, Karnataka, India. Low β-carotene concentration
was partially dominant in most of the crosses. Broad sense heritability was 67 and 91% at Dharwad and Hol, respectively, for
the cross PDW-233 × Bhalegaon-4 and varied from 74 to 93% for the other five crosses indicating the presence of additive gene
effects. The frequency distributions of the trait in the F2 populations were not normal and were skewed towards the lower parent. Segregation of β-carotene concentration in the six
F2 populations indicated that at least two major genes and two or three minor genes with modifying effects govern the trait.
Analysis of variance indicated that environment had comparatively little influence on the trait and this should allow for
easy selection. The joint scaling test revealed additive × additive, additive × dominance and dominance × dominance epistatic
interactions in the cross PDW-233 × Bhalegaon-4.
These authors contributed equally. 相似文献
7.
Jos de Jesús Ornelas-Paz Elhadi M. Yahia Alfonso A. Gardea 《Postharvest Biology and Technology》2008,50(2-3):145-152
High-performance liquid chromatography–atmospheric pressure chemical ionization (APcI+)-time-of-flight mass spectrometry studies revealed that all-trans-β-carotene and the dibutyrates of all-trans-violaxanthin and 9-cis-violaxanthin were the main carotenoids in ‘Ataulfo’ and ‘Manila’ mango fruit mesocarp. The concentration of these carotenoids in the mesocarp was measured during fruit ripening and correlated with colorimetric changes of mesocarp and epidermis. The lowest and highest concentrations of all-trans-β-carotene, all-trans-violaxanthin and 9-cis-violaxanthin (as dibutyrates) during the ripening of ‘Manila’ mango were 0.25 × 10−3 to 35.57 × 10−3, 0.40 × 10−5 to 31.97 × 10−3 and 0 to 16.81 × 10−3 g kg−1 of fresh mesocarp, respectively. For ‘Ataulfo’ they were 2.55 × 10−3 to 39.72 × 10−3, 0.16 × 10−3 to 15.00 × 10−3 and 0.21 × 10−3 to 7.48 × 10−3 g kg−1 of fresh mesocarp, respectively. The concentration of these carotenoids increased in an exponential manner during fruit ripening in ‘Ataulfo’ and in an exponential or second-order polynomial manner in ‘Manila’. The highest correlation coefficients were obtained for the relationships between the mesocarp and epidermis a* and h° color values and the concentration of the evaluated carotenoids in both mango cultivars (R = 0.81–0.94). Equations to predict the concentration of the most important carotenoids in ‘Manila’ and ‘Ataulfo’ mango fruit on the basis of their mesocarp and epidermis color values were obtained. 相似文献
8.
Sindynara Ferreira Luiz Antonio Augusto Gomes Wilson Roberto Maluf Isabela Volpi Furtini Vicente Paulo Campos 《Euphytica》2012,186(3):867-873
The use of resistant cultivars is one of the best methods for nematode control and reduction of economic losses caused by these pathogens. Studies of inheritance of nematode resistance in common bean (Phaseolus vulgaris L.) are nonetheless scarce. The present paper reports on the estimation of genetic parameters associated with resistance to the root nematode Meloidogyne incognita race 1 in common beans. Two contrasting bean lines, ‘Aporé’ (P1 = nematode resistant) e ‘Macarr?o Rasteiro Conquista’ (P2 = susceptible), and the generations F1 (P1 × P2), F2 (P1 × P2), BC1(P1) = (F1 × P1) and BC1(P2) = (F1 × P2), were assessed 45 days after nematode inoculation, through a scale related to the number of eggs per gram of root tissue. Dominant genetic effects were inferior in magnitude to additive effects, indicating incomplete dominance of nematode resistance. Dominance was in the direction of increased nematode resistance (i.e., lower number of eggs per g root). Resistance to Meloidogyne incognita race 1 in common bean is under control of a single gene locus, with incomplete dominance of the resistance allele present in ‘Aporé’, but modifier genes affecting its expression appear to be present in the susceptible parent ‘Macarr?o Rasteiro Conquista’. 相似文献
9.
Reduced leaf senescence (stay-green) has been demonstrated to improve tolerance of post-flowering moisture stress in grain
sorghum. A number of quantitative trait loci (QTLs) associated with stay-green have been identified in sorghum, to facilitate
transfer of this trait into adapted genetic backgrounds. This study reports initial evaluations, in both well watered and
post-flowering stress environments, following partial introgression (BC2F3/BC1F4 generations) of four stable stay-green QTLs (StgB, Stg1, Stg3 and Stg4) from donor parent B35 to senescent variety R 16. The majority of the introgression lines had higher leaf chlorophyll levels
at flowering (a distinctive trait of the donor parent) and a greater percentage green leaf area during the latter part of
grain filling, than did R 16, indicating that the stay-green QTLs were expressed phenotypically in the R 16 background. None
of the QTL introgression lines achieved the same level of stay-green as B35, however. Maintenance of a greater relative green
leaf area during the latter half of grain filling was related to a greater relative grain yield in two of three post-flowering
moisture deficit environments in which the materials were evaluated (r
2 = 0.34 in 2004–2005 and r
2 = 0.76 in 2005–2006), as was a direct measure of leaf chlorophyll in one of the post-flowering stress environments in which
this was measured (r
2 = 0.42, P < 0.05). Thus the study provided useful evidence that the marker-assisted backcross transfer of stay-green QTLs from B35
into an adapted, but senescent background has the potential to enhance tolerance of post-flowering drought stress in sorghum. 相似文献
10.
Kazunori Taguchi Kazuyuki Okazaki Hiroyuki Takahashi Tomohiko Kubo Tetsuo Mikami 《Euphytica》2010,173(3):409-418
Caused by Aphanomyces cochlioides Drechsler, Aphanomyces root rot is a serious disease of sugar beet (Beta vulgaris L.), for which sources of resistance are scarce. To identify the segregation pattern of the rare resistance trait found in
Japanese sugar beet line ‘NK-310mm-O’, F1 and BC1F2 seedings, drawn from a cross between ‘NK-310mm-O’ and susceptible line ‘NK-184mm-O’, were inoculated with zoospores and their
survival evaluated in the greenhouse. Resistance segregation followed was that of a single dominant gene, which was designated
Acr1 (Aphanomyces cochlioides resistance 1). Molecular markers tightly linked to Acr1 were identified by bulked segregant analysis of two BC1F2 populations. Fourteen AFLP markers linked to Acr1 were identified, the closest located within ±3.3 cM. Three F5 lines and two BC2F1 lines, selected on the basis of their Acr1-AFLP markers, were tested for their resistance to Aphanomyces root rot in a highly infested field. Results indicated that
Acr1 conferred significant resistance to Aphanomyces root rot at the field level. Based on its linkage with CAPS marker tk, a
representative marker for chromosome III, Acr1 was located on this chromosome. The clear linkage between tk and Rhizomania resistance trait Rz1, suggests the clustering of major disease resistance genes on chromosome III. 相似文献
11.
Xi Cheng Sumei Chen Fadi Chen Yanming Deng Weimin Fang Fangping Tang Zhaolei Liu Wei Shao 《Euphytica》2011,177(1):45-53
The interspecific cross between Chrysanthemum × grandiflorum (Ramat.) Tzvel. ‘rm20-12’ (R, 2n = 54) and C. makinoi Matsum., and Nakai (M, 2n = 18) was achieved using embryo rescue, and a single backcross progeny using C. × grandiflorum ‘rm20-12’ as paternal parent was obtained. The morphology of the two independent F1 hybrids (MR1 and MR2) differed from that of both parents. MR1 had a larger inflorescence diameter along with narrow leaves
and a reduced number of ray and tubular florets. MR2 was shorter and its inflorescence developed fewer tubular florets than
either M or R. The BC1F1 hybrid was similar to its maternal plant MR2 in terms of leaf length and width, inflorescence diameter and the number of
ray florets, while it produced fewer tubular florets than either MR2 or R. The flower color in both F1 hybrids was lavender, while the BC1F1 plant bore purple flowers. The aphid resistance and heat tolerance of MR1, MR2 and the BC1F1 hybrid were both significantly superior to that of C. × grandiflorum ‘rm20-12’. Interspecific hybridization followed by backcrossing shows clear potential for cultivar improvement in chrysanthemum. 相似文献
12.
Summary Two RAPD markers linked to gene for resistance (assayed as pustule number cm−2 leaf area) to rust [Uromyces fabae (Pers.) de Bary] in pea (Pisum sativum L.) were identified using a mapping population of 31 BC1F1 [HUVP 1 (HUVP 1 × FC 1] plants, FC 1 being the resistant parent. The analysis of genetics of rust resistance was based on
the parents, F1, F2, BC1F1 and BC1F2 generations. Rust resistance in pea is of non-hypersensitive type; it appeared to be governed by a single partially dominant
gene for which symbol Ruf is proposed. Further, this trait seems to be affected by some polygenes in addition to the proposed oligogene Ruf. A total of 614 decamer primers were used to survey the parental polymorphism with regard to DNA amplification by polymerase
chain reaction. The primers that amplified polymorphic bands present in the resistant parent (FC 1) were used for bulked segregant
analysis. Those markers that amplified consistently and differentially in the resistant and susceptible bulks were separately
tested with the 31 BC1F1 individuals. Two RAPD makers, viz., SC10-82360 (primer, GCCGTGAAGT), and SCRI-711000 (primer, GTGGCGTAGT), flanking the rust resistance gene (Ruf) with a distance of 10.8 cM (0.097 rF and LOD of 5.05) and 24.5 cM (0.194 rF and a LOD of 2.72), respectively, were identified.
These RAPD markers were not close enough to Ruf to allow a dependable maker-assisted selection for rust resistance. However, if the two makers flanking Ruf were used together, the effectiveness of MAS would be improved considerably. 相似文献
13.
The fungal disease cercospora leaf spot CLS (Cercospora zonata) has affected major faba bean (Vicia faba) production regions in southern Australian in the last several years. This study offers the first report of sources of resistance
to CLS in faba bean and describes techniques to evaluate resistance to C. zonata in faba bean genotypes within a controlled environment. The method was rapid (43 days), repeatable (R
2 > 0.74) and demonstrated positive correlations (R
2 > 0.45–0.80) to data collected from field disease nurseries under naturally established CLS epiphytotics. All faba bean cultivars
currently adopted by the Australian industry were found to be susceptible to CLS and defoliation was found to be an important
component of disease expression. Genetic analysis of segregation patterns in F
2 derived F
3 families of 1322/2*Farah (resistant*susceptible) showed the mode of inheritance of resistance to C. zonata was monogenic dominant. F
3 families were shown to segregate in the ratio of 1:2:1 for homozygous resistant: heterozygous: homozygous susceptible (χ22 = 2.78; P > 0.05) and individual plants within heterozygous F
3 families segregated in the ratio of 3:1 for resistant: susceptible responses (χ12 = 2.93; P > 0.05). Monogenic dominant inheritance also explained the change in frequency of resistant and susceptible plants within
a population of cv. Cairo following one generation of self-pollination (χ2 = 0.88, 0.3 < P < 0.5). The sources of resistance identified in this study are being used to transfer CLS resistance to adapted faba bean
genotypes for future cultivar releases to the southern Australian industry. 相似文献
14.
Nitish Ranjan Prakash Rajkumar Uttamrao Zunjare Vignesh Muthusamy Gulab Chand Mehar Chand Kamboj Jayant Subraya Bhat Firoz Hossain 《Plant Breeding》2019,138(6):781-789
Prolificacy assumes significance for development of high‐yielding baby corn hybrids. “Sikkim Primitive” is a native landrace of North‐Eastern Himalaya, and is the highest prolific maize germplasm. So far, the genetics of prolificacy in “Sikkim Primitive” has not been deciphered. Here, a prolific inbred (MGU‐SP‐101) developed from “Sikkim Primitive” was crossed with four non‐prolific inbreds viz., LM13, BML7, HKI161 and HKI1128. Six generations (P1, P2, F1, F2, BC1P1 and BC1P2) of the crosses were evaluated at two locations during rainy season 2018. MGU‐SP‐101 possessed 2.50–3.78 ears per plant compared to 1.06–1.86 among non‐prolific inbreds. The variation for ears was the highest in F2s (1–8), followed by BC1P1 (1–7) and BC1P2 (1–5). The quantitative inheritance pattern of prolificacy with prevalence of non‐allelic interactions of duplicate epistasis type has been observed. Dominance × dominance effect was predominant over additive × additive and additive × dominance effects. Total number of major gene blocks ranged from 0.41 to 2.86, thereby suggesting the involvement of at least one major gene/QTL governing the prolificacy. This is the first report of genetic dissection of prolificacy in “Sikkim Primitive”. 相似文献
15.
The objective of this work was to check the possible allelism between two sources of resistance to the root-knot nematode
Meloidogyne incognita race 1 in lettuce (‘Grand Rapids’ and ‘Salinas-88’). The experiments were carried out in greenhouses, in expanded 128-cell
polystyrene trays filled with commercial substrate. Lettuce cultivars ‘Salinas 88’ and ‘Grand Rapids’ were tested along with
the populations F1 (‘Grand Rapids’ × ‘Salinas-88’), F2 (‘Grand Rapids’ × ‘Salinas-88’), F3 (‘Grand Rapids’ × ‘Salinas-88’), and with F4 families derived from the latter population. Seedlings were inoculated 15 days after sowing with a nematode egg suspension
equivalent to 30 eggs ml−1 of substrate. Plants were evaluated for apparent gall incidence, gall scores, egg mass scores and extracted egg numbers 45 days
after the inoculation date. There was evidence that two different genes are involved in control of resistance to M. incognita race 1 in lettuce cultivars Grand Rapids and Salinas-88. Lines with higher levels of nematode resistance than either Grand
Rapids or Salinas-88 could be selected in the F4 generation of the cross between these resistant parental lines. 相似文献
16.
Inheritance and allelic relationship among gene(s) for blast resistance in pearl millet [Pennisetum glaucum (L.) R. Br.] 
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下载免费PDF全文 Shweta Singh Rajan Sharma Bheemavarapu Pushpavathi Shashi Kumar Gupta Ch. V. Durgarani Chandramani Raj 《Plant Breeding》2018,137(4):573-584
Six blast‐resistant pearl millet genotypes, ICMB 93333, ICMB 97222, ICMR 06444, ICMR 06222, ICMR 11003 and IP 21187‐P1, were crossed with two susceptible genotypes, ICMB 95444 and ICMB 89111 to generate F1s, F2s and backcrosses, BC1P1 (susceptible parent × F1) and BC1P2 (resistant parent × F1) for inheritance study. The resistant genotypes were crossed among themselves in half diallel to generate F1s and F2s for test of allelism. The F1, F2 and backcross generations, and their parents were screened in a glasshouse against Magnaporthe grisea isolates Pg 45 and Pg 53. The reaction of the F1s, segregation pattern of F2s and BC1P1 derived from crosses involving two susceptible parents and six resistant parents revealed the presence of single dominant gene governing resistance in the resistant genotypes. No segregation for blast reaction was observed in the F2s derived from the crosses of resistant × resistant parents. The resistance reaction of these F2s indicated that single dominant gene conferring resistance in the six genotypes is allelic, that is same gene imparts blast resistance in these genotypes to M. grisea isolates. 相似文献
17.
Micronutrient malnutrition, especially selenium (Se), iron (Fe), and zinc (Zn) deficiency, is a major global health problem.
Previous attempts to prevent micronutrient malnutrition through food fortification, supplementation, and enrichment of staple
crops has had limited success. Canadian grown lentils are rich in micronutrients Fe (73–90 mg kg−1), Zn (44–54 mg kg−1), Se (425–673 μg kg−1), and have very low concentrations of phytic acid (2.5–4.4 mg g−1). Our preliminary studies using a Caco-2 cell model show that the uptake of Fe from lentils is relatively greater than that
of most other staple food crops. Moreover, preliminary results from our human nutrition study in Sri Lanka show an increased
trend in blood Se concentration after lentil consumption. This article briefly overviews our previously published results
as well as data from international lentil field trials, and describes the potential for biofortified lentil to provide a whole
food solution to combat global human micronutrient malnutrition. 相似文献
18.
Summary Broad sense heritabilities and gene numbers were estimated for the production of total carotenoids and the major component carotenoids of carrot storage roots: phytoene, ζ-carotene, β-carotene, α-carotene, and lycopene. Two crosses with different backgrounds were evaluated: orange B493 × white QAL and orange Brasilia × dark orange HCM. The HCM (high carotene mass selection), Brasilia and B493 parents had both α-carotene and β-carotene, but HCM had proportionally more α-carotene. Carotene content in F
2 populations ranged from 522 ppm to 1714 ppm in Brasilia × HCM and from 0 to 695 ppm in B493 × QAL progeny. F
2 plants segregating for absence of α-carotene were identified in B493 × QAL. Broad-sense heritabilities ranged from 28% to 48% for all carotenes except lycopene and phytoene where estimates were 44% to 89% in the Brasilia × HCM cross, All heritability values exceeded 88% for the B493 × QAL cross, except one estimate for lycopene. The estimated number of genes was 4 conditioning α-carotene, 2 to 3 each for β-carotene and total carotenes and one each for ζ-carotene, lycopene and phytoene in the orange × dark orange cross. In the orange × white cross, the estimates were 4 genes for α-carotene, 1 to 2 each for lycopene and total carotenes and 1 for each of the other carotenes. These results are in general agreement with QTL studies and they provided evidence for continuous inheritance of α-carotene, β-carotene and total carotenoids in the orange × dark orange cross and discrete inheritance for β-carotene and total carotenoids in the orange × white cross.Part of thesis “Biometrical studies and quantitative trait loci associated with major products of the carotenoids pathway of carrot (Daucus carota L.)” presented by the first author as partial fulfillment of the requirement of the PhD degree in Plant Breeding and Plant Genetics, UW-Madison, USA, 2001. 相似文献
19.
Interspecific hybrids were produced from reciprocal crosses between Brassica napus (2n = 38, AACC) and B. oleracea var. alboglabra (2n = 18, CC) to introgress the zero-erucic acid alleles from B. napus into B. oleracea. The ovule culture embryo rescue technique was applied for production of F1 plants. The effects of silique age, as measured by days after pollination (DAP), and growth condition (temperature) on the
efficiency of this technique was investigated. The greatest numbers of hybrids per pollination were produced under 20°/15°C
(day/night) at 16 DAP for B. oleracea (♀) × B. napus crosses, while under 15°/10°C at 14 DAP for B. napus (♀) × B. oleracea crosses. Application of the ovule culture technique also increased the efficiency of BC1 (F1 × B. oleracea) hybrid production by 10-fold over in vivo seed set. The segregation of erucic acid alleles in the self-pollinated backcross
generation, i.e. in BC1S1 seeds, revealed that the gametes of the F1 and BC1 plants carrying a greater number of A-genome chromosomes were more viable. This resulted in a significantly greater number
of intermediate and a smaller number of high-erucic acid BC1S1 seeds. 相似文献
20.
María Elena Cartea Víctor Manuel Rodríguez Antonio de Haro Pablo Velasco Amando Ordás 《Euphytica》2008,159(1-2):111-122
Glucosinolate levels in leaves were determined in a collection of 36 varieties of nabicol (Brassica napus
pabularia group) from northwestern Spain grown at two locations. Crude protein, acid detergent fibre, and sensory traits were also
assessed by a consumer panel. The objectives were to determine the diversity among varieties in total glucosinolate content
and glucosinolate profile and to evaluate their sensory attributes in relation to glucosinolate content for breeding purposes.
Eight glucosinolates were identified, being the aliphatic glucosinolates, glucobrassicanapin, progoitrin, and gluconapin the
most abundant. Glucosinolate composition varied between locations although the glucosinolate pattern was not significantly
influenced. Differences in total glucosinolate content, glucosinolate profile, protein, acid detergent fibre, and flavour
were found among varieties. The total glucosinolate content ranged from 1.4 μmol g−1 to 41.0 μmol g−1 dw at one location and from 1.2 μmol g−1 to 7.6 μmol g−1 dw at the other location. Sensory analysis comparing bitterness and flavour with variation in glucosinolate, gluconapin, progoitrin,
and glucobrassicanapin concentrations suggested that other phytochemicals are probably involved on the characteristic flavour.
The variety MBG-BRS0035 had high total glucosinolate, glucobrassicanapin, and gluconapin contents at both locations and could
be included in breeding programs to improve the nutritional value of this vegetable crop. 相似文献