The female-killing chromosome of the silkworm, Bombyx mori, was generated by translocation between the Z and W chromosomes

Bombyx mori is a female-heterogametic organism (female, ZW; male, ZZ) that appears to have a putative feminizing gene (Fem) on the W chromosome. The paternally transmitted mutant W chromosome, Df(p ^Sa + ^p W + ^od )Fem, derived from the translocation-carrying W chromosome (p ^Sa + ^p W + ^od ), is inert as femaleness determinant. Moreover, this Df(p ^Sa + ^p W + ^od )Fem chromosome has been thought to have a female-killing factor because no female larvae having the Df(p ^Sa + ^p W + ^od )Fem chromosome are produced. Initially, to investigate whether the Df(p ^Sa + ^p W + ^od )Fem chromosome contains any region of the W chromosome or not, we analyzed the presence or absence of 12 W-specific RAPD markers. The Df(p ^Sa + ^p W + ^od )Fem chromosome contained 3 of 12 W-specific RAPD markers. These results strongly indicate that the Df(p ^Sa + ^p W + ^od )Fem chromosome contains the region of the W chromosome. Moreover, by using phenotypic and molecular markers, we confirmed that the Df(p ^Sa + ^p W + ^od )Fem chromosome is connected with a partially deleted Z chromosome and that this fused chromosome behaves as a Z chromosome during male meiosis. Furthermore, we demonstrated that the ZZW-type triploid female having the Df(p ^Sa + ^p W + ^od )Fem chromosome is viable. Therefore, we concluded that the Df(p ^Sa + ^p W + ^od )Fem chromosome does not have a female-killing factor but that partial deletion of the Z chromosome causes the death of the ZW-type diploid female having the Df(p ^Sa + ^p W + ^od )Fem chromosome. Additionally, our results of detailed genetic analyses strongly indicate that the female-killing chromosome composed of the Df(p ^Sa + ^p W + ^od )Fem chromosome and deleted Z chromosome was generated by translocation between the Z chromosome and the translocation-carrying W chromosome, p ^Sa + ^p W + ^od .     

Direct control of antennal identity by the spineless-aristapedia gene of Drosophila

Summary Loss-of-function mutations in the spineless-aristapedia gene of Drosophila (ss ^a mutants) cause transformations of the distal antenna to distal second leg, deletions or fusions of the tarsi from all three legs, a general reduction in bristle size, and sterility. Because ss ^a mutants are pleiotropic, it has been suggested that ss ⁺ has some rather general function and that the ss ^a antennal transformation is an indirect consequence of perturbations in the expression of other genes that more directly control antennal or second leg identity. Here we test whether the ss ^a transformation results from aberrant expression of Antennapedia (Antp), a homeotic gene thought to specify directly the identity of the second thoracic segment. We find that Antp ^– ss ^a mitotic recombination clones in the distal antenna behave identically to Antp ⁺ ss ^a clones, and are transformed to second leg. This demonstrates that the ss ^a antennal transformation is independent of Antp ⁺, and suggests that ss ⁺ may itself directly define distal antennal identity. The results also reveal that Antp ⁺ is not required for the development of distal second leg structures, as these develop apparently normally in Antp ^– ss ^a antennal clones. Because Antp ^– mutations cause deletions or transformations that are restricted to proximal structures, whereas ss ^a alleles cause similar defects that are distally restricted, we suggest that ss ⁺ and Antp ⁺ may play similar, but complementary, roles in the distal and proximal portions of appendages, respectively.     

Immune responses in vitro

The Mls locus was originally defined to have four alleles; three controlled products that were detectable in primary mixed leukocyte reactions (MLR), whereas one, b, was described as being null. Recently, other investigators postulated that the Mls locus is nonpolymorphic, being composed of the b null allele and of a singly expressed allele previously thought to be the a and d alleles. We previously reported that products controlled by Mls ^aand Mls ^dwere antigenically distinct and therefore are not controlled by the same allele, and the product of Mls ^bon cells of three different strains was easily detectable by Mls ^aand Mls ^dresponding cells. Thus the b allele is not null. In the present report evidence is presented which indicates that both Mls ^band Mls ^cencoded products were undetectable by MLR when in the presence of Mls ^aor Mls ^d. This was demonstrated by (a) the inability of Mls ^a/Mls ^cand Mls ^a/Mls ^bF₁ cells to stimulate Mls ^aresponding cells and Mls ^d/Mls ^cand Mls ^d/Mls ^bcells to stimulate Mls ^dcells; (b) the positive response of Mls ^a/Mls ^band Mls ^d/Mls ^bF₁-hybrid cells to Mls ^b-encoded products; and (c) the reactivity of Mls ^a/Mls ^cand Mls ^d/Mls ^cF₁ hybrid cells to Mls ^c-encoded determinants.     

A new H-2.1-PositiveD region allele,D dx,controlling two molecules,H-2Ddx and H-2Ldx

The inbred strains GRS/A and LIS/A carry the haplotypeH-2 ^dx , which had earlier been shown to have theK ^d ,I ^f ,S ^f , andG ^f alleles and a previously unknownD region allele,D ^dx . We show here that theD ^dx allele determines a new private specificity, H-2.63, is H-2.28 negative, and determines at least one public specificity of the H-2.1 family. It is thus a second example (afterD ^k ) of a H-2.1-positive H-2.28-negativeD region allele. Capping experiments show that the D^dx product comprises two molecules: H-2D^dx bearing the private specificity H-2.63, and H-2L^dx, which is H-2.63-negative but reacts with sera against the H-2.1 family of specificities. SDS gel electrophoresis of detergent-solubilized immunoprecipitated D^dx products shows that the H-2L^dx antigen has a molecular weight of approximately 45,000 daltons and is associated with a smaller polypeptide (mol. wt. 12,000).     

–SH and S–S involvement in Chlamydomonas mating

Reagents that block or cross-link sulfhydryl (–SH) groups and those that reduce disulfide (S–S) bonds have been tested for their effects on mating in Chlamydomonas reinhardii. Wild-type (wt) gametes of mating type + (mt⁺) and mt^?, and a fusion-defective mt^? mutant, gam-11, were studied. Differential sensitivities of mt⁺ vs mt^? and of wt mt^? vs gam-11 mt^? were analyzed. Concentrations of reagents that did not disrupt flagellar agglutination, the first stage of the mating reaction, were generally used. Pretreatment of mt⁺ gametes with the membrane permeable –SH reducing agent dithiothreitol (DTT) inhibits flagellar sexual signaling at concentrations that do not inhibit any part of the mating reaction of mt^? gametes. Wt mt^? is more sensitive than wt mt⁺ to inhibition by low concentrations of p-chloromercuribenzoate sulfonate (pCMBS), an organic mercurial. The membrane-impermeable reducing agent, reduced glutathione (GSH), also preferentially inhibits wt mt^?. Gam-11 mt^?, a fusion-defective mutant, which has been used to study the sensitivity of the adhesion of the plasma membrane-associated mating structures, is less sensitive to GSH and pCMBS inhibition that is wt mt^?. DDT and pCMBS cause an increase in mating structure adhesion in pretreated gam-11. The differential inhibition of pair and group formation during gam-11 × wt mt⁺ matings has suggested a possible mechanism for mating structure adhesion.     

Cross-reactivity between RSV-induced tumor antigen and B5 MHC alloantigen in the chicken

Lymphocytes from chickens homozygous (B ² B ²) at the major histocompatibility complex (MHC) were tested for cytotoxic activity against five types of target chicken embryo fibroblasts (CEF). Lymphocytes from B²B² chickens bearing RSV-induced tumors lysed in vitro targets of B ² B ² and B ⁵ B ⁵ RSV-infected CEF and B ⁵ B ⁵ normal CEF, but did not lyse B ² B ² and B ²⁴ B ²⁴ normal CEF. Lymphocytes from normal B ² B ² chickens did not lyse any of the five types of CEF targets. Alloantisera absorption studies showed that both RSV-infected and uninfected CEF shared alloantigens, in particular B-F alloantigens, with syngeneic erythrocytes. Absorption with B ² B ² RSV-infected CEF significantly lowered the titer of B ² B ² anti-B ⁵ B ⁵ alloantisera. Cross-reactivity between B ₅ antigen(s) and tumor-associated antigen was suggested and the nature of the cross-reactivity was discussed. It is hypothesized that this cross-reactivity prevents B ⁵ B ⁵ chickens from recognizing RSV-induced tumors as foreign, enhances tumor growth and leads to death of the host.     

Molecular analysis of HLA-B39 subtypes

Serological studies have suggested the presence of a new HLA-B39 subtype (B39.2) in the Japanese population. To identify the new HLA-B39 subtype and compare it with an other HLA-B39 subtype (B39.1), the genes encoding HLA-B39.1 (B ^* 39013) and B39.2 (B ^* 3902) have been cloned from Japanese. We have sequenced these genes and completed the sequence of HLA-B39.1 (B ^*39011 ) gene from a Caucasian that was partially sequenced. Comparison of the sequence data revealed that B ^* 3902 and B ^* 39013 differ by three nucleotide substitutions which result in a two amino acids change at residues 63 and 67, while one silent substitution at codon 312 is found between B ^* 39011 and B ^* 39013. These results suggest that B ^* 3902 has evolved from B ^* 39013 rather than B ^* 39011.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers M94051 (HLA-B^*39013), M94052 (HLA-B^*39011), and M94053 (HLA-B^*3902).     

Autonomy of the wingless mutation in Drosophila melanogaster

Summary T(Y;2) translocations were used to cytologically localise the wingless locus of Drosophila melanogaster. We found that an existing T(Y;2), which is an insertion of a segment of 2L into the Y chromosome, has wg ⁺ within this insert. This Y chromosome was used to generate an attached XY chromosome containing wg ⁺. The mutation claret-nondisjunctional (ca ^nd) was used to induce the loss of this XY chromosome and thus generate gynandromorphs with wg ¹/wg ¹ male tissue and wg ⁺/wg ¹/wg ¹ female tissue. Analysis of these gynanders demonstrated that a genotypically wingless mutant hemithorax is usually also phenotypically mutant in these half body mosaics; thus wg ¹ is discautonomous. This observation is of interest as it is known that wg is not cell autonomous.     

HYBRIDOGENESIS AND ANDROGENESIS IN THE STICK-INSECT BACILLUS ROSSIUS-GRANDII BENAZZII (INSECTA,PHASMATODEA)

In northwestern Sicily interspecific hybrid females between Bacillus rossius and B. grandii benazzii (Insecta, Phasmatodea) are sympatric with facultatively parthenogenetic demes of the former and bisexual populations of the latter. Preliminary observations suggested that hybrid females are maintained by hybridogenetic reproduction, not by current F₁ hybrid production nor through parthenogenesis. Being hybridogens, a complex of hemiclonal lineages, we informally refer to them as B. rossius-grandii benazzii, according to Schultz's proposal. In this study B. rossius-g. benazzii females were crossed with males of B. g. benazzii, B. g. grandii, B. g. maretimi, and B. rossius. Allozyme analysis of the progeny showed that the great majority of them were actually produced by hybridogenesis with a hemiclonal inheritance of the maternal B. rossius genotype (Br^m) and actual syngamy with a sperm from the fathering male, so that Br^m-gb^p, Br^m-gg^p, Br^m-gm^p, and Br^m-r^p offspring were obtained in the respective crosses. All-paternal progeny (androgenetics) were also produced (Bgb^pgb^p, Bgm^pgm^p, Br^pr^p) and two gynogenetic descendants were observed. Cytological investigations on virgin eggs that failed to hatch revealed in most of them a haploid-diploid blocked blastoderm; this rudimentary parthenogenesis appears to be an important prerequisite for further evolution of this hybridogen. Reproductive modes of descendants were also analyzed; although Br^m-g^p hybrids are still able to reproduce by hybridogenesis, a progressive disruption of the hybridogenetic-androgenetic system takes place in synthetic B. rossius (Br^m-r^p, Br^pr^p) and abundant thelytokous parthenogenetic offspring are obtained from females of androgenetic origin. The evolutionary role of these hybridogens appears to be linked to their shift towards parthenogenesis; this has apparently occurred in the southeastern Sicilian hybrid B. whitei (=B. rossius/g. grandii), which exhibits both hybridogenesis and parthenogenesis.     

Immunoglobulins in the Eastern Carolines

Serum samples from Micronesian populations on the Pingelap, Mokil, Ponape and Kusaie islands were tested for the immunoglobulin G (IgG) allotypes, Gm (1, 2, 3, 5, 6, 13, 14, 21), and for Inv (1). All four populations have the Gm phenogroups, Gm^1,21, Gm^1,2,21, Gm^1,3,5,13,14, and Gm^1,5,6. The Ponapeans have Gm^1,5,13,14 also. Pedigree analysis shows that the Gm^1,5,6 phenogroup in the Pingelap and Mokil populations is derived from the single offspring of a member of a crew of a whaling ship and that the Gm^1,2,21 phenogroup was introduced by three non-native individuals. The Gm allotypes indicate that the Ponapean and Kusiean populations also have phenogroups from other races, and historical data show that there has been adequate opportunity for this to have occurred. Only the phenogroups Gm^1,21 and Gm^1,5,13,14 appear to be endemic to eastern Micronesia.     

Scd1 ab-Xyk : a new asebia allele characterized by a CCC trinucleotide insertion in exon 5 of the stearoyl-CoA desaturase 1 gene in mouse

We describe here a spontaneous, autosomal recessive mutant mouse suffering from skin and hair defects, which arose in the outbred Kunming strain. By haplotype analysis and direct sequencing of PCR products, we show that this mutation is a new allele of the asebia locus with a naturally occurring mutation in the Scd1 gene (a CCC insertion at nucleotide position 835 in exon 5), which codes for stearoyl-CoA desaturase 1. This mutation introduces an extra proline residue at position 279 in the Scd1 protein. The mutant mice, originally designated km/km but now assigned the name Scd1 ^ab-Xyk (hereafter abbreviated as ab ^Xyk / ab ^Xyk ), have a similar gross and histological phenotype to that reported for previously characterized allelic asebia mutations ( Scd1 ^ab , Scd1 ^abJ , Scd1 ^ab2J , and Scd1 ^tm1Ntam ). Histological analysis showed they were also characterized by hypoplasic sebaceous glands and abnormal hair follicles. In a cross between Kunming- ab ^Xyk / ab ^Xyk and ABJ/Le- ab ^J / ab ^J mice, all the progeny showed the same phenotype, indicating that the two mutations were non-complementing and therefore allelic. Comparisons with the other four allelic mutants indicate that the Scd1 ^ab-Xyk mutation causes the mildest change in Scd1 function. This new mouse mutant is a good model not only for the study of scarring alopecias in humans, which are characterized by hypoplasic sebaceous glands, but also for studying the structure and function of the Scd1 protein.Communicated by G. ReuterThe first two authors contribute equally to this work     

Five novel elements involved in the regulation of mitosis in fission yeast

Summary Five new elements of the mitotic control in the fission yeast Schizosaccharomyces pombe were isolated from gene libraries as multicopy suppressors of the conditional lethal phenotype of win1-1 weel ^ts cdc25^ts triple mutant strains. These genes were designated wisl ⁺ –wis5⁺for win suppressing, and do not correspond to winl ⁺ or any of the previously characterised mitotic control genes. None of the wis genes is capable of suppressing the cdc phenotype of cdc25 ^ts strains, suggesting that their effect is not simply to reverse the effect of loss of cdc25 function. wisl ⁺ has been previously reported to encode a putative serine/threonine protein kinase that acts as a dosage-dependent inducer of mitosis. wis4 ⁺ appears to be a specific suppressor of the winl-1 mutation. wis2 ⁺ and wis3 ⁺ are capable of suppressing a wide range of cdc phenotypes arising from the combination of various mutations with wee1 ^ts and cdc25 ^ts, suggesting that the wis2 ⁺ and wis3 ⁺ products may interact with elements central to the mitotic control.     

Do histocompatibility antigens recognize themselves?

In the Simonsen spleen weight assay, theH-2K ^ba mutant does not respond against theH-2K ^bd mutant orH-2K ^bd /H-2K ^b hybrid, while the parentalH-2K ^b haplotype does respond. TheH-2K ^ba /H-2K ^b hybrid reacts strongly to bothH-2K ^bd andH-2K ^bd /H-2K ^b , indicating that the donor genotype could influence the reactivity against the same antigenic difference. The response of theH-2 ^ba mutant against a number of unrelated H-2 antigens does not differ from that of the parental haplotype. TheH-2K ^bd mutant reacts againstH-2K ^b andH-2K ^ba , and theH-2K ^b parent reacts against both theH-2K ^ba andH-2K ^bd mutants. The specific defect of reactivity in theH-2K ^ba mutant is effectively complemented by crossing with a number of unrelatedH-2 haplotypes. TheH-2 ^ka andH-2 ^fa mutants complement poorly compared to corresponding parental strains CBA and A.CA, while the B10.M (H-2 ^f ) strain does not complement at all (which is probably attributable to an undetectedH-2 mutation in the last strain). The data strongly suggest that the product of theH-2K locus-which is known to function as a transplantation antigen, lymphocyte activating determinant, and serologically defined antigen-also influences the immune response capacity against a mutant histocompatibility determinant.     

Self-compatible peach (<Emphasis Type="Italic">Prunus persica</Emphasis>) has mutant versions of the <Emphasis Type="Italic">S</Emphasis> haplotypes found in self-incompatible <Emphasis Type="Italic">Prunus</Emphasis> species

This study demonstrates that self-compatible (SC) peach has mutant versions of S haplotypes that are present in self-incompatible (SI) Prunus species. All three peach S haplotypes, S ¹ , S ² , and S ^2m , found in this study encode mutated pollen determinants, SFB, while only S ^2m has a mutation that affects the function of the pistil determinant S-RNase. A cysteine residue in the C5 domain of the S ^2m -RNase is substituted by a tyrosine residue, thereby reducing RNase stability. The peach SFB mutations are similar to the SFB mutations found in SC haplotypes of sweet cherry (P. avium) and Japanese apricot (P. mume). SFB ¹ of the S ¹ haplotype, a mutant version of almond (P. dulcis) S ^k haplotype, encodes truncated SFB due to a 155 bp insertion. SFB ² of the S ² and S ^2m haplotypes, both of which are mutant versions of the S ^a haplotype in Japanese plum (P. salicina), encodes a truncated SFB due to a 5 bp insertion. Thus, regardless of the functionality of the pistil determinant, all three peach S haplotypes are SC haplotypes. Our finding that peach has mutant versions of S haplotypes that function in almond and Japanese plum, which are phylogenetically close and remote species, respectively, to peach in the subfamily Prunoideae of the Roasaceae, provides insight into the SC/SI evolution in Prunus. We discuss the significance of SC pollen part mutation in peach with special reference to possible differences in the SI mechanisms between Prunus and Solanaceae.     

Contrasting Effects of ENU Induced Embryonic Lethal Mutations of thequakingGene

Multiple alleles of the quaking (qk) gene have a variety of phenotypes ranging in severity from early embryonic death to viable dysmyelination. A previous study identified a candidate gene, QKI, that contains an RNA-binding domain and encodes at least three protein isoforms (QKI-5, -6 and -7). We have determined the genomic structure of QKI, identifying an additional alternative end in cDNAs. Further we have examined the exons and splice sites for mutations in the lethal allelesqk^l-1, qk^kt1, qk^k2,andqk^kt3.The mutation inqk^l-1creates a splice site in the terminal exon of the QKI-6 isoform. Missense mutations in the KH domain and the QUA1 domains inqk^k2andqk^kt3,respectively, indicate that these domains are of critical functional importance. Although homozygotes for each ENU induced allele die as embryos, their phenotypes as viable compound heterozygotes with qk^vdiffer. Compound heterozygousqk^vanimals carryingqk^kt1, qk^k2,andqk^kt3all exhibit a permanent quaking phenotype similar to that ofqk^v/qk^vanimals, whereasqk^v/qk^l-1animals exhibit only a transient quaking phenotype. Theqk^l-1mutation eliminates the QKI-5 isoform, showing that this isoform plays a crucial role in embryonic survival. The transient quaking phenotype observed inqk^v/qk^l-1mice indicates that the QKI-6 and QKI-7 isoforms function primarily during myelination, but that QKI-5 may have a concentration-dependent role in early myelination. This mutational analysis demonstrates the power of series of alleles to examine the function of complex loci and suggests that additional mutant alleles of quaking could reveal additional functions of this complex gene.     

SbHKT1;4, a member of the high-affinity potassium transporter gene family from Sorghum bicolor,functions to maintain optimal Na＋/K＋ balance under Na＋ stress

In halophytic plants, the high-affinity potassium transporter HKT gene family can selectively uptake K＋ in the presence of toxic concentrations of Na＋. This has so far not been well examined in glycophytic crops. Here, we report the characterization of SbHKTI;4, a member of the HKT gene family from Sorghum bicolor. Upon Na＋ stress, SbHKT1;4 expression was more strongly upregulated in salt-tolerant sorghum accession, correlating with a better balanced Na＋/ K＋ ratio and enhanced plant growth. Heterogeneous expression analyses in mutants of Saccharomyces cerevisiae and Arabidopsis thaliana indicated that overexpressing SbHKT1;4 resulted in hypersensitivity to Na＋ stress, and such hypersensitivity could be alleviated with the supply of elevated levels of K＋, implicating that SbHKT1;4 may mediate K＋ uptake in the presence of excessive Na＋. Further electrophysiological evidence demonstrated that SbHKT1;4 could transport Na＋ and K＋ when expressed in Xenopus laevis oocytes. The relevance of the finding that SbHKTI;4 functions to maintain optimal Na＋/K＋ balance under Na＋ stress to the breeding of salt-tolerant glycophytic crops is discussed.     

ZxAKT1 is essential for K+ uptake and K+/Na+ homeostasis in the succulent xerophyte Zygophyllum xanthoxylum

The inward‐rectifying K⁺ channel AKT1 constitutes an important pathway for K⁺ acquisition in plant roots. In glycophytes, excessive accumulation of Na⁺ is accompanied by K⁺ deficiency under salt stress. However, in the succulent xerophyte Zygophyllum xanthoxylum, which exhibits excellent adaptability to adverse environments, K⁺ concentration remains at a relatively constant level despite increased levels of Na⁺ under salinity and drought conditions. In this study, the contribution of ZxAKT1 to maintaining K⁺ and Na⁺ homeostasis in Z. xanthoxylum was investigated. Expression of ZxAKT1 rescued the K⁺‐uptake‐defective phenotype of yeast strain CY162, suppressed the salt‐sensitive phenotype of yeast strain G19, and complemented the low‐K⁺‐sensitive phenotype of Arabidopsis akt1 mutant, indicating that ZxAKT1 functions as an inward‐rectifying K⁺ channel. ZxAKT1 was predominantly expressed in roots, and was induced under high concentrations of either KCl or NaCl. By using RNA interference technique, we found that ZxAKT1‐silenced plants exhibited stunted growth compared to wild‐type Z. xanthoxylum. Further experiments showed that ZxAKT1‐silenced plants exhibited a significant decline in net uptake of K⁺ and Na⁺, resulting in decreased concentrations of K⁺ and Na⁺, as compared to wild‐type Z. xanthoxylum grown under 50 mm NaCl. Compared with wild‐type, the expression levels of genes encoding several transporters/channels related to K⁺/Na⁺ homeostasis, including ZxSKOR, ZxNHX, ZxSOS1 and ZxHKT1;1, were reduced in various tissues of a ZxAKT1‐silenced line. These findings suggest that ZxAKT1 not only plays a crucial role in K⁺ uptake but also functions in modulating Na⁺ uptake and transport systems in Z. xanthoxylum, thereby affecting its normal growth.     

A Na+/Ca2+ exchanger of the olive pathogen Pseudomonas savastanoi pv. savastanoi is critical for its virulence

In a number of compatible plant-bacterium interactions, a rise in apoplastic Ca²⁺ levels is observed, suggesting that Ca²⁺ represents an important environmental clue, as reported for bacteria infecting mammalians. We demonstrate that Ca²⁺ entry in Pseudomonas savastanoi pv. savastanoi (Psav) strain DAPP-PG 722 is mediated by a Na⁺/Ca²⁺ exchanger critical for virulence. Using the fluorescent Ca²⁺ probe Fura 2-AM, we demonstrate that Ca²⁺ enters Psav cells foremost when they experience low levels of energy, a situation mimicking the apoplastic fluid. In fact, Ca²⁺ entry was suppressed in the presence of high concentrations of glucose, fructose, sucrose or adenosine triphosphate (ATP). Since Ca²⁺ entry was inhibited by nifedipine and LiCl, we conclude that the channel for Ca²⁺ entry is a Na⁺/Ca²⁺ exchanger. In silico analysis of the Psav DAPP-PG 722 genome revealed the presence of a single gene coding for a Na⁺/Ca²⁺ exchanger (cneA), which is a widely conserved and ancestral gene within the P. syringae complex based on gene phylogeny. Mutation of cneA compromised not only Ca²⁺ entry, but also compromised the Hypersensitive response (HR) in tobacco leaves and blocked the ability to induce knots in olive stems. The expression of both pathogenicity (hrpL, hrpA and iaaM) and virulence (ptz) genes was reduced in this Psav-cneA mutant. Complementation of the Psav-cneA mutation restored both Ca²⁺ entry and pathogenicity in olive plants, but failed to restore the HR in tobacco leaves. In conclusion, Ca²⁺ entry acts as a ‘host signal’ that allows and promotes Psav pathogenicity on olive plants.