Leading scorers, 'keepers ahead of Week 5

6 goals
Andre Senghor, Baniyas        

5 goals
Jose Sand, Al Ain; Marcelinho Oliveira, Sharjah.

3 goals
Ismael Bangoura, Al Nasr; Lamine Diarra, Al Shabab; Ahmed Khamis, Al Ahli; Pinga Luciano, Al Ahli; Michael N'dri, Dubai; Francisco Yeste, Al Wasl.

2 goals
Julio Cesar, Al Shabab; Gregory Dufrennes, Kalba; Abdulaziz Fayez, Al Ain; Jumaa Abdullah, Al Jazira; Abdullah Mousa, Al Jazira; Carlos Tenorio, Al Nasr; Carlos Villanueva, Al Shabab.

1 goal
Humaid Abdullah, Sharjah; Omar Abdulrahman, Al Ain; Dawood Ali, Al Shabab; Mohammed Alsaedi, Al Dhafra; Fernando Baiano, Al Wahda; Aristide Bance, Al Ahli; Fawzi Basheer, Baniyas; Khaled Darwish, Al Wasl; Ibrahim Diaky, Al Jazira; Modibo Diarra, Al Wahda; Ahmed Eissa, Kalba; Simon Feindouno, Kalba; Saleh Habboush, Baniyas; Hamad al Hosani, Al Dhafra; Maher Jassim, Al Wasl; Boris Kabi, Al Dhafra; Saeed al Kas, Al Wasl; Hamdan al Kamali, Al Wahda; Ahmed Khalil, Al Ahli; Subait Khater, Al Jazira; Abbas Lawal, Al Dhafra; Leonardo Lima, Al Nasr; Alexandre Oliveira, Al Wasl; Khalid Sabeel, Al Jazira; Rachid Tiberkanin, Dubai.

Own goals: Dhafra (Khairi al Hammadi)

Leading goalkeepers
Ali Kasheif, Al Jazira    0.33
Abdullah Sultan, Al Ain     0.33
Adel al Hosani, Al Wahda    0.75
Ayoub al Marzouqi, Baniyas    1.00
Majed Nasser, Al Wasl    1.75
Obaid al Taweela, Al Ahli    1.75
Salem Abdullah, Al Shabab    2.00
Jamal al Hammadi, Dubai     2.00
Ismael Rabea, Al Nasr     2.00
Mohammed al Tamimi, Dhafra     2.33
Mohammed Abdullah, Kalba    3.33

Note: goals allowed per game; minimum three games played


Goals scored per week
Week 1 -- 18
Week 2 -- 19
Week 3 -- 17
Week 4 -- 21

Average goals per match: 3.1

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

How Alia's experiment will help humans get to Mars

Alia’s winning experiment examined how genes might change under the stresses caused by being in space, such as cosmic radiation and microgravity.

Her samples were placed in a machine on board the International Space Station. called a miniPCR thermal cycler, which can copy DNA multiple times.

After the samples were examined on return to Earth, scientists were able to successfully detect changes caused by being in space in the way DNA transmits instructions through proteins and other molecules in living organisms.

Although Alia’s samples were taken from nematode worms, the results have much bigger long term applications, especially for human space flight and long term missions, such as to Mars.

It also means that the first DNA experiments using human genomes can now be carried out on the ISS.

 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up 

NYBL PROFILE

Company name: Nybl 

Date started: November 2018

Founder: Noor Alnahhas, Michael LeTan, Hafsa Yazdni, Sufyaan Abdul Haseeb, Waleed Rifaat, Mohammed Shono

Based: Dubai, UAE

Sector: Software Technology / Artificial Intelligence

Initial investment: $500,000

Funding round: Series B (raising $5m)

Partners/Incubators: Dubai Future Accelerators Cohort 4, Dubai Future Accelerators Cohort 6, AI Venture Labs Cohort 1, Microsoft Scale-up