Development of transgenic tobacco harboring a zeatin O-glucosyltransferase gene from Phaseolus

Summary Zeatin and its derivatives are major consituents of higher plant cytokinins. Metabolic steps modifying the isoprenoid side chain, such as O-glycosylation, are expected to have a direct bearing on cytokinin-mediated processes. To examine this possibility, transgenic tobacco plants were generated harboring a gene (ZOG1) encoding a zeatin O-glucosyltransferase from Phaseolus lunatus under the control of a constitutive (35S) and an inducible (Tet) promoter. The presence of the transgene resulted in elevated enzyme production and conversion of exogenous zeatin to its O-glucoside, confirming the expression of the ZOG1 gene in transgenic plants. Endogenous O-glucosylzeatin was increased from less than 1 pmol per g fresh weight in leaves and roots of controls to 26 and 68 pmol per g fresh weight in leaves and roots of 35S-ZOG1 transformants, respectively. In cytokinin/auxin interaction experiments, Tet-ZOG1 leaf discs, in the presence of tetracycline, required 10-fold higher zeatin concentrations for the formation of shoots and callus than the controls. In 35S-ZOG1 plants, developmental changes included adventitious root formation on the lower stems, shorter stature, and axillary shoot growth. Thus, increased zeatin O-glucosylation in detached, cytokinin-dependent tissues leads to a shift in the response to exogenous zeatin indicative of cytokinin sequestering. In whole plants the effect can simulate a reduction or a rise in cytokinin activity depending on the tissue and stage of development. The use of tissue- and stagespecific promoters in the future will allow more precise analyses and targeted growth alterations.     

Substrate specificity and domain analyses of zeatin O-glycosyltransferases

The substrate specificity of two recombinant enzymes, zeatin O-glucosyltransferase 1 (ZOG1) and zeatin O-xylosyltransferase 1 (ZOX1), was further characterised. ZOG1 utilises zeatin (Z), UDPG, and UDPX as substrates to form O-glucosylzeatin (OGZ) and O-xylosylzeatin (OXZ) but has higher affinity to UDPG than UDPX. ZOX1 uses only UDPX, converting Z to OXZ. Dihydrozeatin (DHZ) is also a substrate for both enzymes, but only in combination with UDPX, giving rise to O-xylosyldihydrozeatin (OXDHZ). O-Glucosyldihydrozeatin (OGDHZ) is not formed by ZOG1, possibly due to steric hindrance. Regions relevant to UDPG/UDPX affinity and competition were identified using hybrid enzymes derived from domain exchanges of parental genes. The N-terminal half of the enzyme is important in this respect. The BstEII-BstAPI segment of ZOG1 correlates with inhibition of O-xylosyltransferase activity by UDPG while the BstAPI-Eco0109 segment of ZOG1 is required for utilisation of UDPG as the sugar donor.     

A gene encoding the cytokinin enzyme zeatin O-xylosyltransferase of Phaseolus vulgaris.

Zeatin is the most active and ubiquitous form of the naturally occurring cytokinins. Glycosyl conjugates of zeatin are found in many plant tissues and are considered important for storage and protection against degradative enzymes. Two enzymes catalyzing the formation of O-glycosyl derivatives of zeatin have been characterized, O-glucosyltransferase and O-xylosyltransferase, occurring in seeds of lima bean (Phaseolus lunatus) and bean (Phaseolus vulgaris), respectively. Recently, the ZOG1 gene (zeatin O-glucosyltansferase) was isolated from P. lunatis (). Based on the ZOG1 sequence, the ZOX1 gene (zeatin O-xylosyltransferase) was cloned from P. vulgaris. ZOX1 contains an open reading frame of 1362 bp that codes for a 454-amino acid peptide of 51 kD. The recombinant protein has properties identical to the native enzyme: it catalyzes O-xylosylzeatin formation with UDP-Xyl as a glycosyl donor but does not recognize UDP-Glucose as a substrate. The ZOX1 and ZOG1 genes exhibit 93% identity at the nucleotide level and 90% similarity at the amino acid level. Neither gene contains introns. These zeatin-specific genes and their promoters will be useful for studies of the regulation of active versus storage forms of cytokinins. Comparison of sequences encoding similar enzymes with distinct substrate specificity may lead to identification of epitopes specific to cytokinin and glycosyl donor molecules.     

Activation of members of a MAPK module in β-glucan elicitor-mediated non-host resistance of soybean

Plants recognize microbial pathogens by discriminating pathogen-associated molecular patterns from self-structures. We study the non-host disease resistance of soybean (Glycine max L.) to the oomycete, Phytophthora sojae. Soybean senses a specific molecular pattern consisting of a branched heptaglucoside that is present in the oomycetal cell walls. Recognition of this elicitor may be achieved through a β-glucan-binding protein, which forms part of a proposed receptor complex. Subsequently, soybean mounts a complex defense response, which includes the increase of the cytosolic calcium concentration, the production of reactive oxygen species, and the activation of genes responsible for the synthesis of phytoalexins. We now report the identification of two mitogen-activated protein kinases (MAPKs) and one MAPK kinase (MAPKK) that may function as signaling elements in triggering the resistance response. The use of specific antisera enabled the identification of GmMPKs 3 and 6 whose activity is enhanced within the signaling pathway leading to defense reactions. Elicitor specificity of MAPK activation as well as the sensitivity against inhibitors suggested these kinases as part of the β-glucan signal transduction pathway. An upstream GmMKK1 was identified based on sequence similarity to other plant MAPKKs and its interaction with the MAPKs was analyzed. Recombinant GmMKK1 interacted predominantly with GmMPK6, with concomitant phosphorylation of the MAPK protein. Moreover, a preferential physical interaction between GmMKK1 and GmMPK6 was demonstrated in yeast. These results suggest a role of a MAPK cascade in mediating β-glucan signal transduction in soybean, similar to other triggers that activate MAPKs during innate immune responses in plants. Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users. The nucleotide sequences encoding the MAPKs and MAPKK1 from soybean can be accessed through the GenBank database under GenBank accession numbers AF104247, AF329506, and AY070230.     

沉默大豆GmWRKY33B基因导致大豆抗病性降低

WRKY转录因子基因家族是植物特有的转录因子,在防御中起着重要作用。通过生物信息学分析,本研究在古四倍体大豆(Glycine max)基因组中找到一对同源性高达93%的WRKY33同源基因,并将其命名为GmWRKY33B。从GmWRKY33B的两个同源基因保守区域选取一个315 bp片段构建至菜豆豆荚斑驳病毒(bean pod mosaic virus, BPMV)沉默载体(BPMV-VIGS)上,以期同时沉默上述2个GmWRKY33B基因。结果表明,同时沉默2个GmWRKY33B基因并不显著改变沉默植株的表型,但却显著降低了大豆对大豆斑点病菌以及大豆花叶病毒的抗性,说明GmWRKY33B在大豆免疫反应中起正调控作用。激酶分析表明,GmWRKY33B沉默植株中flg22诱导的GmMPK6的磷酸化水平较空载体BPMV-0植株显著降低,说明GmWRKY33B可以通过调控GmMPK6的激酶活性而参与大豆的免疫反应。抗毒素为大豆中主要起防御作用的植保素,而大豆异黄酮类特异性异戊烯基转移酶(prenyltransferase, PT)基因家族是参与大豆抗毒素生物合成的主要基因,许多PT基因启动子区含有与WRKY特异性结合的W-box序列。在丁香假单胞菌pv.甘氨酸(Pseudomonas syringae pv. glycinea, Psg)侵染条件下,4个PT基因的表达水平在沉默株系中显著降低,说明GmWRKY33B参与PT基因的转录激活。综上所述,GmWRKY33B通过调控GmMPK6的激活以及调控大豆抗毒素生物合成途径中关键酶编码基因的表达而参与免疫反应。     

Isolation and identification of substances inducing formation of tracheary elements in cultured carrot-root slices

Data are presented on the cytokinin status of seeds and seed components, at different stages of development in Phaseolus coccineus L., as determined with the soybean callus growth bioassay: A change in cytokinin types according to developmental stage occurred: from biologically very active less polar types (zeatin=Z) at early stages to more polar types (zeatin glucoside=Z₉G and zeatin riboside=Zr), with relatively low biological activity, at intermediate and late stages of seed development: When cytokinins were analyzed separately in embryos (embryo proper) and suspensors at two embryonic stages: heart-shaped (A) and middle cotyledonary embryos (stage B) respectively, it was found that: i) at stage A, the suspensor showed cytokinin activity at the level of Z, 2iPA (2-isopentenyladenosine) and Zr, whereas more polar cytokinins (Z₉G, Zr) were present in the embryo; ii) at stage B, when the embryo seems to become autonomous for cytokinin supply, there was a relative abundance of active cytokinins (Z, 2iPA) in the embryo to which Z₉G activity in the suspensor corresponded. It is concluded that the suspensor plays an essential role in embryogenesis by acting as a hormone source to the early embryo.Abbreviations GA gibberellic acid - 2iPA 2-isopentenyladenosine - Stage A heart-shaped embryo - siage B middle cotyledonary embryo - Z zeatin - Z₉G zeatin glucoside - Zr Zeatin riboside     

The possible involvement of cytokinins in the pathogenicity of Helminthosporium maydis

Green islands/infection sites recorded higher cytokinin activity than surrounding tissue as well as non-inoculated tissue. This activity in infected areas increased with time of incubation while in tissue surrounding the green islands and non-inoculated tissue, cytokinin activity decreased with time of incubation. The culture filtrate extracts of H. maydis had cytokinin activity which increased with growth of the fungus. Cytokinin activity of thin-layer Chromatographic fractions from tissue and culture filtrate extracts revealed that a major portion of the activity was confined to Rf zone 0.6 to 0.8 which co-chromatographed with zeatin and zeatin riboside. Presence of zeatin and zeatin riboside in tissue and culture filtrates was confirmed by high performance liquid chromatography. Cytokinin substances, such as zeatin and zeatin riboside, increase at infection sites with growth of the pathogen suggesting they may be involved in the pathogenicity of H. maydis on maize.     

The stability and biological activity of cytokinin metabolites in soybean callus tissue

The activity, uptake and metabolism of cytokinin metabolites was determined in soybean (Glycine max (L.) Merr.) callus tissue. The following activity sequence was established: zeatin riboside (ZR)>zeatin (Z)>O-glucosides of Z, ZR and their dihydro derivatives>lupinic acid (an alanine conjugate of Z)>7- and 9-glucosides of Z which were almost inactive. The 7- and 9-glucosides and lupinic acid were taken up very slowly by the callus tissue and showed great metabolic stability, but some degradation to 7-glucosyladenine, 9-glucosyladenine and the 9-alanine conjugate of adenine occurred. Compared with its aglycone, O-glucosyl-ZR exhibited slow uptake and greatly enhanced stability but gas chromatographic-mass spectrometric analysis showed that appreciable amounts were hydrolyzed to ZR in the tissue. Both ZR and O-glucosyl-ZR were metabolised extensively, with adenine, adenosine, and adenine nucleotide(s) as the major metabolites. A diversity of minor metabolites of ZR were identified, including O-glucosides, lupinic acid and dihydrolupinic acid. The metabolism of ZR was suppressed by 3-isobutyl-1-methylxanthine. When compared with the soybean callus line normally used for cytokinin bioassays (cv. Acme, cotyledonary callus), related callus lines exhibited greatly differing growth responses to cytokinin: however, these were not reflected in marked differences in metabolism.Abbreviations GC-MS gas chromatography-mass spectrometry - HPLC high-performance liquid chromatography - LA lupinic acid - OGZR O--D-glucopyranosylzeatin riboside - TLC thin-layer chromatography - IMX 3-isobutyl-1-methylxanthine - Z zeatin - ZR zeatin riboside     

Arabidopsis cytokinin-resistant mutant, cnr1, displays altered auxin responses and sugar sensitivity

Based upon the phenotype of young, dark-grown seedlings, a cytokinin-resistant mutant, cnr1, has been isolated, which displays altered cytokinin- and auxin-induced responses. The mutant seedlings possess short hypocotyls and open apical hooks (in dark), and display agravitropism, hyponastic cotyledons, reduced shoot growth, compact rosettes and short roots with increased adventitious branching and reduced number of root hairs. A number of these features invariably depend upon auxin/cytokinin ratio but the cnr1 mutant retains normal sensitivity towards auxin as well as auxin polar transport inhibitor, TIBA, although upregulation of primary auxin-responsive Aux/IAA genes is reduced. The mutant shows resistance towards cytokinin in hypocotyl/root growth inhibition assays, displays reduced regeneration in tissue cultures (cytokinin response) and decreased sensitivity to cytokinin for anthocyanin accumulation. It is thus conceivable that due to reduced sensitivity to cytokinin, the cnr1 mutant also shows altered auxin response. Surprisingly, the mutant retains normal sensitivity to cytokinin for induction of primary response genes, the type-A Arabidopsis response regulators, although the basal level of their expression was considerably reduced as compared to the wild-type. The zeatin and zeatin riboside levels, as estimated by HPLC, and the cytokinin oxidase activity were comparable in the cnr1 mutant and the wild-type. The hypersensitivity to red light (in hypocotyl growth inhibition assay), partial photomorphogenesis in dark, and hypersensitivity to sugars, are some other features displayed by the cnr1 mutant. The lesion in the cnr1 mutant has been mapped to the top of chromosome 1 where no other previously known cytokinin-resistant mutant has been mapped, indicating that the cnr1 mutant defines a novel locus involved in hormone, light and sugar signalling.     

Mass-spectrometric quantification of cytokinin nucleotides and glycosides in tobacco crown-gall tissue

the cytokinins of tobacco crown-gall tissue have been analysed by quantitative mass spectrometry using ²H₂-labelled cytokinin riboside 5-monophosphates and ¹⁵N₄-labelled cytokinin glycosides as internal standards. The principal endogenous cytokinin of this tissue is zeatin riboside 5-monophosphate. The biologically inactive 7-glucoside of zeatin is the most abundant basic cytokinin in the tissue. These findings expose the limitations of previously reported analyses of similar tissues, which were restricted to biologically active basic cytokinins. The present study demonstrates that the endogenous cytokinins of tobacco crowngall tissue show a clear correspondence to the range of metabolites formed when exogenous cytokinins are supplied to nontumorous tobacco cells.Abbreviations DHZ dihydrozeatin - DHZ7G dihydrozeatin 7-glucoside - DHZMP dihydrozeatin 9-riboside 5-monophosphate - DHZR dihydrozeatin 9-riboside - GC-MS coupled gas chromatography-mass spectrometry - HPLC high-performance liquid chromatography - Z7G zeatin 7-glucoside - Z9G zeatin 9-glucoside - ZOG zeatin O-glucoside - ZMP zeatin 9-riboside 5-monophosphate - ZR zeatin 9-riboside - ZROG zeatin 9-riboside O-glucoside     

Changes in cytokinin activity during flower development in Cosmos sulphureus Cav

Endogenous cytokinin activity was determined in the flowers of Cosmos sulphureus Cav. from bud emergence to full bloom using the soybean callus bioassay. Cytokinin activity was low early in flower development but increased prior to full bloom. In Sephadex LH-20 column chromatography of flower extracts, the cytokinins present co-eluted with zeatin, zeatin riboside and glucoside cytokinin. While the former two predominated prior to full bloom, cytokinin glucoside activity appeared to be at a maximum at full bloom. The possible relevance of these findings is discussed in relation to flower development.     

The GmFWL1 (FW2‐2‐like) nodulation gene encodes a plasma membrane microdomain‐associated protein

The soybean gene GmFWL1 (FW2‐2‐like1) belongs to a plant‐specific family that includes the tomato FW2‐2 and the maize CNR1 genes, two regulators of plant development. In soybean, GmFWL1 is specifically expressed in root hair cells in response to rhizobia and in nodules. Silencing of GmFWL1 expression significantly reduced nodule numbers supporting its role during soybean nodulation. While the biological role of GmFWL1 has been described, its molecular function and, more generally, the molecular function of plant FW2‐2‐like proteins is unknown. In this study, we characterized the role of GmFWL1 as a membrane microdomain‐associated protein. Specifically, using biochemical, molecular and cellular methods, our data show that GmFWL1 interacts with various proteins associated with membrane microdomains such as remorin, prohibitins and flotillins. Additionally, comparative genomics revealed that GmFWL1 interacts with GmFLOT2/4 (FLOTILLIN2/4), the soybean ortholog to Medicago truncatula FLOTILLIN4, a major regulator of the M. truncatula nodulation process. We also observed that, similarly to MtFLOT4 and GmFLOT2/4, GmFWL1 was localized at the tip of the soybean root hair cells in response to rhizobial inoculation supporting the early function of GmFWL1 in the rhizobium infection process.     

Overexpression of the Gm<Emphasis Type="Italic">GAL2</Emphasis> Gene Accelerates Flowering in <Emphasis Type="BoldItalic">Arabidopsis</Emphasis>

A soybean MADS box gene GmGAL2 (Glycine max AGAMOUS Like 2), a homolog of AGL11/STK, was investigated in transgenic Arabidopsis lines. Ectopic expression of GmGAL2 in Arabidopsis enhanced flowering, under both long-day and short-day conditions, by promoting expression of key flowering genes, CONSTANS (CO) and FLOWERING LOCUS T (FT), and lowering expression of floral inhibiter FLOWERING LOCUS C (FLC). Moreover, frequency of silique pod set was also lower in transgenic compared to control Arabidopsis plants. RT-PCR results revealed that GmGAL2 was primarily expressed in the flowers and pods of soybean plants, GmGAL2 expressed higher in SD than LD in soybean.     

Pathogenesis of barley leaves by Helminthosporium teres I: Green island formation and the possible involvement of cytokinins

Infection sites/green islands were formed in host leaf tissue infected with drops of H. teres. They exhibited higher cytokinin-like activity, sugar and starch than their surrounding tissue and tissue under water drops. The cytokinin-like activity at the infection sites increased from 24 to 72 h of incubation. However, the cytokinin-like activity of the tissue surrounding the infection drops and the tissue under water drops fell from 24 to 72 h incubation. The culture filtrate extracts of the fungus also produced cytokinin-like activity which increased from 1 to 10 days incubation. Application of this culture filtrate extract evoked green island formation. Application of kinetin to host leaves duplicated the green island effect. Thin-layer chromatographic fractions of the tissue extracts and the culture filtrate extracts revealed that a major portion of cytokinin-like activity corresponded to zeatin and zeatin riboside. The presence of zeatin and zeatin riboside (both in tissue and culture filtrate extracts) was confirmed by high performance liquid chromatography. Increases in the amounts of cytokinin-like substances, particularly zeatin and zeatin riboside, attributed to pathogen influence are suggested to be involved in infection and pathogenicity of H. teres.     

Biochemical Characterization of Cytokinin Oxidases/Dehydrogenases from <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> Expressed in <Emphasis Type="Italic">Nicotiana tabacum</Emphasis> L.

Transgenic tobacco plants overexpressing single Arabidopsis thaliana cytokinin dehydrogenase (CKX, EC 1.5.99.12) genes AtCKX1, AtCKX2, AtCKX3, AtCKX4, AtCKX5, AtCKX6, and AtCKX7 under the control of a constitutive 35S promoter were tested for CKX-enzymatic activity with varying pH, electron acceptors, and substrates. This comparative analysis showed that out of these, only AtCKX2 and AtCKX4 were highly active enzymes in reaction with isoprenoid cytokinins (N ⁶ -(2-isopentenyl)adenine (iP), zeatin (Z)) and their ribosides using the artificial electron acceptors 2,6-dichlorophenol indophenol (DCPIP) or 2,3-dimethoxy-5-methyl-1,4-benzoquinone (Q₀). Turnover rates of these cytokinins by four other AtCKX isoforms (AtCKX1, AtCKX3, AtCKX5, and AtCKX7) were substantially lower, whereas activity of AtCKX6 was almost undetectable. The isoenzymes AtCKX1 and AtCKX7 showed significant preference for cytokinin glycosides, especially N ⁶ -(2-isopentenyl)adenine 9-glucoside, under weakly acidic conditions. All enzymes preferentially cleave isoprenoid cytokinins in the presence of an electron acceptor, but aromatic cytokinins are not resistant and are degraded with lower reaction rates as well. Cytokinin nucleotides, considered as resistant to CKX attack until now, were found to be potent substrates for some of the CKX isoforms. Substrate specificity of AtCKXs is discussed in this study with respect to the structure of the CKX active site. Further biochemical characterization of the AtCKX1, AtCKX2, AtCKX4 and AtCKX7 enzymes showed pH-dependent activity profiles.     

Mass spectrometric measurement of zeatin glycoside levels in Vinca rosea L. crown gall tissue

The range of zeatin glycosides found in crown gall tissue of Vinca rosea L. has been quantified using a mass spectrometric isotope dilution procedure. Problems in the quantitative analysis of cytokinins in plant extracts are discussed.Abbreviations GC/MS coupled gas chromatography-mass spectrometry - HPLC high-performance liquid chromatography - Me methyl - Z zeatin - Z9G zeatin 9-glucoside - ZOG zeatin O-glucoside - ZR zeatin 9-riboside - ZROG zeatin 9-riboside O-glucoside     

Structure and function of cytokinin oxidase/dehydrogenase genes of maize,rice,<Emphasis Type="Italic"> Arabidopsis</Emphasis> and other species

Cytokinin oxidases/dehydrogenases (CKX) catalyze the irreversible degradation of the cytokinins isopentenyladenine, zeatin, and their ribosides in a single enzymatic step by oxidative side chain cleavage. To date the sequences of 17 fully annotated CKX genes are known, including two prokaryotic genes. The CKX gene families of Arabidopsis thaliana and rice comprise seven and at least ten members, respectively. The main features of CKX genes and proteins are summarized in this review. Individual proteins differ in their catalytic properties, their subcellular localization and their expression domains. The evolutionary development of cytokinin-catabolizing gene families and the individual properties of their members indicate an important role for the fine-tuned control of catabolism to assure proper regulation of cytokinin functions. The use of CKX genes as a tool in studies of cytokinin biology and biotechnological applications is discussed.     

<Emphasis Type="Italic">In vitro</Emphasis> micropropagation of endangered <Emphasis Type="Italic"> Rhododendron ponticum</Emphasis> L. subsp. <Emphasis Type="Italic">baeticum</Emphasis> (Boissier &; Reuter) Handel-Mazzetti

In vitro propagation of Rhododendron ponticum L. subsp. baeticum, an endangered species present in limited and vulnerable populations as a Tertiary relict in the southern Iberian Peninsula, was attained. Several cytokinin:IAA ratios and a range of zeatin concentrations were evaluated for their effect on shoot multiplication from apical shoots and nodal segments. The type of cytokinin and the origin of the explant were the most important factors affecting shoot multiplication. The highest shoot multiplication rate was obtained from single-nodal explants on medium supplemented with zeatin. Increasing zeatin concentration promotes shoot multiplication independently of explant type, although this effect tends to decrease with higher zeatin concentration. Shoot growth was higher in apical shoots and it was not stimulated by the presence of auxin. A number of experiments were conducted to identify suitable procedures for rooting of in vitro produced shoots. The best results in terms of in vitro rooting were obtained with Andersons modified medium with macrosalts reduced to one-half, regardless of the auxin or its concentration in the medium. Although rooting frequency rose to 97% by basal immersion of shoots in auxin concentrated solution followed by in vitro culture on an auxin-free medium, the survival of the plants after 6 months of acclimatization was poor (50%). Best results (100% rooting and survival) were observed for ex vitro rooting. The micropropagated plants from this study were successfully reintroduced into their natural habitat (87% of survival after 8 months).     

沉默GmATG10导致大豆免疫反应的激活

自噬途径是真核生物中普遍存在的物质降解及循环利用的保守机制,在真核生物的生长发育以及免疫反应等方面起着至关重要的作用。而ATG10在自噬体(autophagosomes)的形成过程中起着非常重要的作用。为探讨大豆(Glycine max) ATG10在免疫防御反应中的功能,本研究采用大豆豆荚斑驳病毒(bean pod mottle virus,BPMV)诱导的基因沉默技术(virus-induced gene silencing,VIGS)成功地在大豆中同时沉默ATG10的两个同源基因(GmATG10a和GmATG10b);通过黑暗诱导的碳饥饿处理以及GmATG8积累水平的Western blotting分析证明,同时沉默GmATG10a/10b可导致大豆叶片出现自噬缺陷;抗病性鉴定与激酶分析证明沉默GmATG10a/10b可通过负调控Gm MPK3/6激活而参与免疫反应,是大豆免疫反应的负调控因子。     

Cytokinins from a variant strain of cultured soybean cells

A strain of soybean cells capable of growing on a tissue culture medium lacking a cytokinin produced at least 3 compounds active in the soybean cytokinin assay. The characteristics of these compounds were consistent with their being zeatin in the free form, zeatin ribonucleoside and zeatin ribonucleotide. Although the conversion from a cytokinin dependent to independent condition in this strain parallels the change of normal cells to crown gall tumor state in terms of the capacity to synthesize cell division substances, the soybean factors are distinct from the nicotinamide derivatives reported for tumor cells of Vinca.