1. IntroductionThe dermatological p

1. Introduction
The dermatological pathogenic microbes could endure in the
skin through the cracks, ulcers causing skin infections. The
treatment depends on using antibiotics, which have several side
effects. The remarkable increase in antibiotics resistant bacte-
rial species (Kina, 2003; Motta et al., 2004) lead to search
for new sources of antibiotics through the isolation and iden-
tification of new types of microorganisms such as bacteria,
fungi and actinomycetes (Alexander, 1982). The antibiotics
produced by bacteria have been gaining importance by many
investigators. Bacterial species producing antibiotics have been
used as biocontrol agents against pathogenic fungi (Yilmaz et
al., 2005; Gebree1 et al., 2008).
Soil is considered one of the most suitable environments for
microbial growth (Cavalcanti et al., 2006), for that the micro-
organisms which have been isolated from the soil having lead-
ing in this area. The genus Streptomyces which is antibiotics
producer has been isolated from the soil of Yemen (Ahmed,
2003). Also, one hundred bacterial isolates were isolated from
six different soil samples collected from Egypt, 20 of them
could antagonized some selected plants and human pathogenic
fungi such as Apergillus sp., Fusarium oxysporum, Penecillium
digitatum and Alternaria solani (Gebree1 et al., 2008). More-
over, 20 bacterial strains isolated from soil stressed ecological
niches of Eastern Uttar Pradesh, India showed strong antimi-
crobial activities (Singh et al., 2009).
On the other hand, some studies showed that saliva con-
tains many antimicrobial substances. B-defensins which are
cationic peptides with broad-spectrum antimicrobial activity
are produced by human salivary glands and oral mucosal sur-
faces and most abundant in tissues of associated inflamma-
tions. Human B-defensins play an important role in the
innate defenses against oral microorganisms (Mathews et al.,
1999). Murakami et al. (2002) detected cathelicidin antimicro-
bial peptides in human saliva, contributing to broad-spectrum
defense of the oral cavity. Also, cathelicidin are essential for
the protection of skin against invasive bacterial infection. In
addition, salivary histatins are potent in vitro antifungal agents
and have great promise as therapeutic agent in humans with
oral candidiasis caused by Candida albicans. Histatins caused
loss of fungal cell integrity followed by its death (Edgerton
et al., 1998). Further more, Liu et al. (2008) purified and
cloned a noval antimicrobial peptide from salivary glands of
hard tick named ixoxin-B.
Based on the above mentioned literatures, this study is an
attempt to investigate the antimicrobial activity of certain soil
microorganisms isolated from the soil of El-Medina El-
Monawara mixed with human saliva against some pathogenic
microorganisms that cause wounds inflammation and ulcers
such as Staphylococcus aureus, methicillin resistant S. aureus
(MRSA) and the pathogenic fungus Aspergillus niger isolated
from dermatological infections as fungal foot disease
(Kown-chung and Bennett, 1992). Moreover, identification
of the most active isolates was done.
Through the guidance of our prophet (peas be upon him)
Aisha said: if someone complained to messenger of God (peas
be upon him) from ulcer or wound, the prophet used to put his
finger on the earth and saying (name of God, our soil, our sal-
iva, to accrue our patient with helping of our lord) Al-Bukhari
and Muslim narrated.