Untersuchung der eiweißspindeln des kakteen-X-Virus mit fluoreszierenden Antikörpern

A?koliv na zá kladě mnoha pokus? se p? edpokládalo, ?e tzv. bÍlkovinná v?etena v buňkách tzn. buně?né inkluse X-viru kaktus? (Ca XV), jsou slo?ena z ?etních prodlou?ených ?ásti Ca XV, p?esto to dosud nebylo proká zá no. Proto jsme se pokusili pomocÍ fluoreskujÍcÍch protilátek doká ?at, ?e bilkovinná v?etena jsou skute?ně agregáty virových ?ástic. V těto práci jsme pouzili tzv. nep?Ímé metody. Nejprve jsme p? sobili na buňky obsahujÍci tato v?etena homologiokým antisé rem proti Ca XV, zÍskanym imunizacÍ králÍk? a teprve potom jsme buňky vlo?ili do roztoku fluoreskujicÍch protilátek proti králicimu γglobulinu. BÍlkovinná v?etena svitila potom ve fluorescen?nÍm mikroskopu silně ?lutozeleně (bylopou?ito fluoresceinisothiocyaná tu). Tato fluorescence ná m uká zala, ?e nastala pozitivnÍ reakce a ?e bÍlkovianá v?etena jsou slo?ena z virových ?ástic. ?etné kontrolnÍ pokusy potvrdily ná? základnÍ pokus.     

Increased sensitivity of the respiratory system of plants grown in gibberellic acid toward fluoride

V souvislosti s d?ívěj?imi údaji (Lu?tinec a Krektjle 1959, Lu?tinec, Krekule a PokornÁ 1960) o silném inhibi?ním ú?inku fluoridu na dychání rostlin pěstovaných v roztoku kyseliny giberelové byl pomocí specificky zna?ené glukosy a respira?ních inhibitor? zji?tován vztah krátko- i dlouhodobého p?sobení kyseliny giberelové k poměru mezi podíly glykolytického a pentosofosfátového odbourání v respiraci list? p?enice. V souhlase s výsledky Fanga a spol. (1960) byIo zji?těno, ?e kyselina giberelová v koncentracích 2 a? 80 mg/l neovlivńuje během několikahodinového p?sobení na roz?ezané listy p?enice poměr radioaktivit¹⁴CO₂ uvolněného z glukosy-6-¹⁴C a -1-¹⁴C (C₆/C₁) ani nemění v koncentraci 10 mg/l stupeń inhibice dýchání fluoridem, monojodacetátem a malonátem a spot?ebu kyslíku. Výdej¹⁴CO₂ z glukosy-l-¹⁴C a -6-¹⁴C kyselina giberelová sni?uje v lineární závislosti na pou?itých koncentracích. U rostlin pěstovaných v roztoku kyseliny giberelové (10–20 mg/l) se rychleji sni?uje poměr C₆C₁ i absolutní hodnoty radioaktivity během několika dní od vyklí?ení, ne? u rostlin pěstovaných ve vodě. To svěd?í o rychlej?ím zvět?ování podílu pentosového cyklu v respiraci pokusných rostlin. Fluorid brzdí p?i stejném nebo men?ím obsahu ve tkáni dýchání list? rostlin pěstovaných v roztoku kyseliny giberelové silněji ne? dýchání rostlin pěstovaných ve vodě, zatimco ûcinek monojodacetátu a malonátu je u stejně starých rostlin (4 dny) obou variant stejný. O mo?ných p?í?inách tohoto jevu bylo diskutováno.     

Close karyological kinship between the reptilian suborder serpentes and the class aves

Summary In contrast to the situation found in two classes of warm-blooded vertebrates, mammals and birds, the class Reptilia is not uniform with regard to total genetic content; rather, it contains two distinct categories. The close cytological kinship between snakes and birds was revealed. Both are almost identical in total genetic content, which is about 50 per cent that of placental mammals. Both have microchromosomes, as well as Z-chromosomes very similar in absolute size, comprising nearly 10 per cent of the homogametic haploid (AZ) set. This leads to the implication that snakes and birds originated from the same lineage, and that their Z-chromosomes have not changed substantially since the Jurassic period of the Mesozoic era, about 180 million years ago.Within the reptilian suborder Serpentes, the step-by-step differentiation from the primitive ZW pair to the grossly heteromorphic ZW pair could be observed. In the ancient family Boidae, the sex chromosomes were still homomorphic to each other. In the family Colubridae, the beginning of heteromorphism was manifested in two ways. In some species, a pericentric inversion on the W caused it to differ from the Z; in others, duplication of the W occurred. In the family Crotalidae, the W had apparently achieved its very specialized status; it was a distinctly smaller element.In Säo Paulo, this work was supported by Fundacão de Amparo a Pesquisa do Estado de São Paulo e Fundo de Pesquisas do Instituto Butantan. In Duarte, this work was supported in part by grant CA-05138-05, National Cancer Institute, U. S. Public Health Service. Contribution No. 36-64, Department of Biology, City of Hope Medical Center.     

Influence of the soya meal fractions on gibberellic acid and gibberellin A production in submerse cultivation ofGibberella fujikuroi

The relationship of different soya meal components to gibberellin (GA) production was studied. Fluorometric assay confirmed that under the given fermentation conditions, only gibberellic acid (GA₃) was synthesized on medium containing corn steep. On substituting soya flour for corn steep, the same amount of GA₃ was produced and in addition gibberellin A (GA₁) was formed. The GA₃: GA₁ ratio was 1∶1. The course of fermentation in media containing the soya meal protein fraction (fraction I), the soya meal amino acid complex, the corn steep amino acid complex and individual amino acids (γ-aminobutyric acid or tryptophane) was the same as in the control medium containing soya meal. The soya meal fraction II, which is characterized by a high cellulose and carbohydrate content, raised GA production by 25% as compared with production in medium containling soya meal; it simultaneously stimulated GA₃ production, so that the final GA₃: GA₁ ratio was 4∶1.     

Preparation of anti-inhibitor serum and its effect on the multiplication of influenza virus

Antiserum был подготовлен противингибитор вируса haemagglutination (IVH)одна из эмбриона chorioallantoic мембр анныепутем иммун изации морских св инокЭто анти-инги битора в сыворотке заблокирован ингибирование IVH из chorioallantoicмембран в haemagglutination испытанияно ника кого влияния на ре цепторы эритроци товСыворотке кро] ви не влияет рост chorioallantoic мембраны клет ок инет нейтрализ овать воздействи е на вирус гриппа Она снизилась спо собность chorioallantoic мембр ан для adsorb вируса гри ппа, а также степен ь размножения вир усав такого рода тканиАвторы хоте ли бы поблагодари ть г-н Г. Ruttkay-Ne -палубе и для проведения эле ктрофореза меру ния.     

Relationships of the chromosomal species in the eurasian mole rats of theSpalax ehrenbergi group as determined by DNA-DNA hybridization,and an estimate of the spalacid-murid divergence time

Summary DNA-DNA hybridization was used to measure the average genomic divergence among the four chromosomal species of the Eurasian mole rats belonging to theSpalax ehrenbergi complex (Rodentia: Spalacidae). The percent nucleotide substitutions in the single-copy nuclear DNA among the species ranged from 0 to 5%, suggesting that speciation has occurred with minor genomic changes in these animals. The youngest chromosomal species appear to differ by 0.2–0.6% base pair mismatch, which is only between one and three base differences in a 500-bp fragment. The interspecific values of percent nucleotide differences permit the recognition of two well-separated speciation events in theS. ehrenbergi complex, the older (of Lower Pleistocene age) having isolated the chromosomal species 2n=54 before the divergence of the three other species.DNA-DNA hybridization was also used to compare the Spalacinae (Eurasian mole rats), Murinae (Old World rats and mice), and Arvicolinae (voles and lemmings). These data enabled us to estimate the time of divergence of the spalacids at ca. 19 million years ago. The dates of divergence among the other rodent lineages, as predicted by DNA hybridization results, agree well with paleontological data. These dates of divergence are obtained by the relation between geological time and single-copy nuclear DNA change, a relation that was calibrated by Catzeflis et al. (1987) through the use of fossil Arvicolinae and Murinae data.     

Plastid transformation in greening scales of the onion bulb (Allium cepa,Alliaceae)

The greening of the upper part of the outerAllium cepa L. bulb scales, in particular along the vascular regions, is limited to the hypodermal cells in which typical leucoplasts are transformed to normal and functional chloroplasts. This process is light dependent and cannot afterwards be reversed or modified by darkness. The changes in fine structure are described and briefly discussed.Dedicated to Prof. DrLothar Geitler on the occasion of his 90th birthday and 55 years after the publication of his Grundriß der Cytologie.