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101.
Dida MM Srinivasachary Ramakrishnan S Bennetzen JL Gale MD Devos KM 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2007,114(2):321-332
Restriction fragment length polymorphism (RFLP), amplified fragment length polymorphism (AFLP), expressed-sequenced tag (EST),
and simple sequence repeat (SSR) markers were used to generate a genetic map of the tetraploid finger millet (Eleusine coracana subsp. coracana) genome (2n = 4x = 36). Because levels of variation in finger millet are low, the map was generated in an inter-subspecific F2 population from a cross between E. coracana subsp. coracana cv. Okhale-1 and its wild progenitor E. coracana subsp. africana acc. MD-20. Duplicated loci were used to identify homoeologous groups. Assignment of linkage groups to the A and B genome
was done by comparing the hybridization patterns of probes in Okhale-1, MD-20, and Eleusine indica acc. MD-36. E. indica is the A genome donor to E. coracana. The maps span 721 cM on the A genome and 787 cM on the B genome and cover all 18 finger millet chromosomes, at least partially.
To facilitate the use of marker-assisted selection in finger millet, a first set of 82 SSR markers was developed. The SSRs
were identified in small-insert genomic libraries generated using methylation-sensitive restriction enzymes. Thirty-one of
the SSRs were mapped. Application of the maps and markers in hybridization-based breeding programs will expedite the improvement
of finger millet.
Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users. 相似文献
102.
Das M Kobayashi M Yamada Y Sreeramulu S Ramakrishnan C Wakatsuki S Kato R Varadarajan R 《Journal of molecular biology》2007,372(5):1278-1292
Disulfide bonds play an important role in protein stability and function. Here, we describe a general procedure for generating disulfide-linked dimers and multimers of proteins of known crystal structures. An algorithm was developed to predict sites in a protein compatible with intermolecular disulfide formation with neighboring molecules in the crystal lattice. A database analysis was carried out on 46 PDB coordinates to verify the general applicability of this algorithm to predict intermolecular disulfide linkages. On the basis of the predictions from this algorithm, mutants were constructed and characterized for a model protein, thioredoxin. Of the five mutants, as predicted, in solution four formed disulfide-linked dimers while one formed polymers. Thermal and chemical denaturation studies on these mutant thioredoxins showed that three of the four dimeric mutants had similar stability to wild-type thioredoxin while one had lower stability. Three of the mutant dimers crystallized readily (in four to seven days) in contrast to the wild-type protein, which is particularly difficult to crystallize and takes more than a month to form diffraction-quality crystals. In two of the three cases, the structure of the dimer was exactly as predicted by the algorithm, while in the third case the relative orientation of the monomers in the dimer was different from the predicted one. This methodology can be used to enhance protein crystallizability, modulate the oligomerization state and to produce linear chains or ordered three-dimensional protein arrays. 相似文献
103.
We describe two uncommon roles for Zn2+ in enzyme KpnI restriction endonuclease (REase). Among all of the REases studied, KpnI REase is unique in its DNA binding and cleavage characteristics. The enzyme is a poor discriminator of DNA sequences, cleaving DNA in a promiscuous manner in the presence of Mg2+. Unlike most Type II REases, the active site of the enzyme comprises an HNH motif, which can accommodate Mg2+, Mn2+, or Ca2+. Among these metal ions, Mg2+ and Mn2+ induce promiscuous cleavage by the enzyme, whereas Ca2+-bound enzyme exhibits site-specific cleavage. Examination of the sequence of the protein revealed the presence of a zinc finger CCCH motif rarely found in proteins of prokaryotic origin. The zinc binding motif tightly coordinates zinc to provide a rigid structural framework for the enzyme needed for its function. In addition to this structural scaffold, another atom of zinc binds to the active site to induce high fidelity cleavage and suppress the Mg2+- and Mn2+-mediated promiscuous behavior of the enzyme. This is the first demonstration of distinct structural and catalytic roles for zinc in an enzyme, suggesting the distinct origin of KpnI REase. 相似文献
104.
A bifunctional high molecular weight (Mr, 64,500 Da) beta-1-3, 1-4 glucan 4-glucanohydrolase was purified to homogeneity from Thermomonospora sp., exhibiting activity towards lichenan and xylan. A kinetic method was used to analyze the active site that hydrolyzes lichenan and xylan. The experimental data was in agreement with the theoretical values calculated for a single active site. Probing the conformation and microenvironment at active site of the enzyme by fluorescent chemo-affinity label, OPTA resulted in the formation of an isoindole derivative with complete inactivation of the enzyme to hydrolyse both lichenan and xylan confirmed the results of kinetic method. OPTA forms an isoindole derivative by cross-linking the proximal thiol and amino groups. The modification of cysteine and lysine residues by DTNB and TNBS respectively abolished the ability of the enzyme to form an isoindole derivative with OPTA, indicating the participation of cysteine and lysine in the formation of isoindole complex. 相似文献
105.
R.KpnI, an HNH superfamily REase, exhibits differential discrimination at non-canonical sequences in the presence of Ca2+ and Mg2+
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KpnI REase recognizes palindromic sequence, GGTAC↓C, and forms complex in the absence of divalent metal ions, but requires the ions for DNA cleavage. Unlike most other REases, R.KpnI shows promiscuous DNA cleavage in the presence of Mg2+. Surprisingly, Ca2+ suppresses the Mg2+-mediated promiscuous activity and induces high fidelity cleavage. To further analyze these unique features of the enzyme, we have carried out DNA binding and kinetic analysis. The metal ions which exhibit disparate pattern of DNA cleavage have no role in DNA recognition. The enzyme binds to both canonical and non-canonical DNA with comparable affinity irrespective of the metal ions used. Further, Ca2+-imparted exquisite specificity of the enzyme is at the level of DNA cleavage and not at the binding step. With the canonical oligonucleotides, the cleavage rate of the enzyme was comparable for both Mg2+- and Mn2+-mediated reactions and was about three times slower with Ca2+. The enzyme discriminates non-canonical sequences poorly from the canonical sequence in Mg2+-mediated reactions unlike any other Type II REases, accounting for the promiscuous behavior. R.KpnI, thus displays properties akin to that of typical Type II REases and also endonucleases with degenerate specificity in its DNA recognition and cleavage properties. 相似文献
106.
A wide range of web based prediction and annotation tools are frequently used for determining protein function from sequence. However, parallel processing of sequences for annotation through web tools is not possible due to several constraints in functional programming for multiple queries. Here, we propose the development of APAF as an automated protein annotation filter to overcome some of these difficulties through an integrated approach. 相似文献
107.
Banerjee R Sreetama S Saravanan KS Dey SN Mohanakumar KP 《Neurochemical research》2007,32(7):1238-1247
The potent parkinsonian neurotoxin 1-methyl-4-phenyl-1, 2, 3, 6-tetrahydropyridine (MPTP) is known to cause dopaminergic neurodegeneration
in nigrostriatal system. In the present study we investigated the nuclear morphology of cells in the substantia nigra pars
compacta (SNpc) region of rats following unilateral intranigral infusion of the active metabolite, 1-methyl-4-phenyl pyridinium
ion (MPP+), which resulted in a dose-dependent and prolonged dopamine depletion in the ipsilateral striatum. There appeared a substantial
loss of tyrosine hydroxylase immunoreactive neurons in the SNpc that received the neurotoxin. Specific nuclear staining with
Hoechst 33342 or acridine orange revealed bright pyknotic, shrunken, distorted nuclei and condensed chromatin with perinuclear
nucleolus respectively following visualization with the former and latter dyes in the ipsilateral SNpc, as compared to the
round, intact nuclei and centrally positioned nucleolus in the contralateral side. Ultrastructural details of the nucleus
under transmission electron microscope confirmed distorted nuclear organization with shrunken or condensed nuclei and disrupted
nuclear membrane. These features are typical of nucleus undergoing apoptosis, and suggest that MPP+ causes dopaminergic neuronal death through an apoptotic mode. Typical laddering pattern of genomic DNA isolated from the
ipsilateral SN in agarose gel electrophoresis conclusively established apoptosis following intranigral administration of MPP+ in rats.
Rebecca Banerjee and Sen Sreetama contributed equally to this paper. 相似文献
108.
History of click-speaking populations of Africa inferred from mtDNA and Y chromosome genetic variation 总被引:3,自引:0,他引:3
Tishkoff SA Gonder MK Henn BM Mortensen H Knight A Gignoux C Fernandopulle N Lema G Nyambo TB Ramakrishnan U Reed FA Mountain JL 《Molecular biology and evolution》2007,24(10):2180-2195
Little is known about the history of click-speaking populations in Africa. Prior genetic studies revealed that the click-speaking Hadza of eastern Africa are as distantly related to click speakers of southern Africa as are most other African populations. The Sandawe, who currently live within 150 km of the Hadza, are the only other population in eastern Africa whose language has been classified as part of the Khoisan language family. Linguists disagree on whether there is any detectable relationship between the Hadza and Sandawe click languages. We characterized both mtDNA and Y chromosome variation of the Sandawe, Hadza, and neighboring Tanzanian populations. New genetic data show that the Sandawe and southern African click speakers share rare mtDNA and Y chromosome haplogroups; however, common ancestry of the 2 populations dates back >35,000 years. These data also indicate that common ancestry of the Hadza and Sandawe populations dates back >15,000 years. These findings suggest that at the time of the spread of agriculture and pastoralism, the click-speaking populations were already isolated from one another and are consistent with relatively deep linguistic divergence among the respective click languages. 相似文献
109.
Amit Kumar Singh Tufail Bashir Christian Sailer Viswanathan Gurumoorthy Anantha Maharasi Ramakrishnan Shanmuhapreya Dhanapal Ueli Grossniklaus Ramamurthy Baskar 《Plant physiology》2015,168(1):247-257
In humans, it is well known that the parental reproductive age has a strong influence on mutations transmitted to their progeny. Meiotic nondisjunction is known to increase in older mothers, and base substitutions tend to go up with paternal reproductive age. Hence, it is clear that the germinal mutation rates are a function of both maternal and paternal ages in humans. In contrast, it is unknown whether the parental reproductive age has an effect on somatic mutation rates in the progeny, because these are rare and difficult to detect. To address this question, we took advantage of the plant model system Arabidopsis (Arabidopsis thaliana), where mutation detector lines allow for an easy quantitation of somatic mutations, to test the effect of parental age on somatic mutation rates in the progeny. Although we found no significant effect of parental age on base substitutions, we found that frameshift mutations and transposition events increased in the progeny of older parents, an effect that is stronger through the maternal line. In contrast, intrachromosomal recombination events in the progeny decrease with the age of the parents in a parent-of-origin-dependent manner. Our results clearly show that parental reproductive age affects somatic mutation rates in the progeny and, thus, that some form of age-dependent information, which affects the frequency of double-strand breaks and possibly other processes involved in maintaining genome integrity, is transmitted through the gametes.In humans, it has long been recognized that the reproductive age of the parents has an influence on the health of their progeny. An older reproductive age of the mother is known to increase the fraction of aneuploid gamete formation (Hurles, 2012). For instance, the risk for a trisomy increases from 2% to 3% for mothers in their 20s to more than 30% for mothers in their 40s (Hassold and Hunt, 2009). The age of the father also has an effect on the frequency of spontaneous congenital disorders and common complex diseases, such as autism and some cancers (Goriely and Wilkie, 2012). Indeed, sperm from 36- to 57-year-old men have more double-strand breaks (DSBs) than those of 20- to 35-year-old individuals (Singh et al., 2003). Similarly, the efficiency of DSB repair was reported to decrease with age in vegetative tissues of the plant model system Arabidopsis (Arabidopsis thaliana; Boyko et al., 2006).Owing to the continuous divisions of spermatogonial stem cells, the male germline of humans is thought to be more mutagenic than the female germline. Indeed, it was shown that the paternal germline is more mutagenic than the maternal one with respect to base substitutions (Kong et al., 2012) and replication slippage errors at microsatellites (Sun et al., 2012). It is also known that carriers of germline mutations in mismatch repair (MMR) genes in humans are prone to get colorectal cancer and that the risk depends on the parent-of-origin of the mutation (van Vliet et al., 2011). The molecular basis of these parental effects is not entirely clear but is likely to involve higher rates of nondisjunction during female meiosis, higher mutation rates during spermatogenesis, and probably additional effects of aging.In contrast to the effect of parental age on germline mutations, not much is known about potential effects of parental reproductive age on somatic mutation rates in the offspring. However, it has been shown in animal studies that radiation of males can lead to somatic mutations in their progeny—and subsequent generations—that cannot be attributed to mutations in the paternal germline (for review, see Little et al., 2013). Moreover, several recent studies have illustrated the existence of complex parental and transgenerational effects in humans, although their molecular basis is not clear (Grossniklaus et al., 2013). These effects can be of either genetic nature (but the effect is seen even in offspring that did not inherit the genetic variant from their parents; for review, see Nadeau, 2009) or epigenetic nature (where environmental influences can possibly exert effects on subsequent generations; for review, see Pembrey et al., 2006; Pembrey, 2010; Curley et al., 2011). It is currently not known whether such parental effects affect the somatic mutation rates in the offspring or whether the effects are modulated by parental age.Taking advantage of the plant model system Arabidopsis, in which various somatic mutation rates can readily be assessed (Bashir et al., 2014), we investigated the effects of parental reproductive age on somatic mutation rates in the progeny. We report that there is a pronounced effect of parental age on somatic mutation rates in their offspring in a parent-of-origin-dependent fashion. Thus, some form of parental information, which is inherited through the gametes to the next generation, seems to alter the somatic mutation rates in the progeny and changes with parental reproductive age. 相似文献
110.